| 10th week of 2022 patent applcation highlights part 41 |
| Patent application number | Title | Published |
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| 20220075089 | SYSTEM AND METHOD FOR DETERMINING INFRASTRUCTURE RISK ZONES - A system and a method for determining infrastructure risk zones is disclosed. The system and method may include: receiving, from a radiofrequency (RF) radiation sensor, a first scan of an area, wherein the area at least partially comprises the infrastructure; receiving additional data; filtering electromagnetic noise from the first scan using the additional data; receiving infrastructure location in the area; determining an examination zone around the infrastructure; estimating the amount of clay in soil included in the examination zone, from the filtered scan; calculating soil moisture content at locations in the examination zone, from the filtered scan; and determining location at risk having soil moisture content above a predetermined threshold, wherein the threshold may be determined based on the estimated clay amount. | 2022-03-10 |
| 20220075090 | THROUGH-BIT RECONFIGURABLE NMR LOGGING TOOL - An apparatus for performing a nuclear magnetic resonance (NMR) measurement in a borehole penetrating a subsurface formation includes an NMR tool having an outside diameter that is less than an inside diameter of a drill tubular disposed in the borehole, the drill tubular having an opening at the distal end of the drill tubular leading into the borehole, and a retaining device configured to allow at least a section of the NMR tool to protrude through the opening of the drill tubular and prevent an unrestrained release of the NMR tool through the opening. The apparatus also includes a transmitter antenna and a receiver antenna coupled to the NMR tool, wherein the transmitter antenna and/or the receiver antenna are extendable from the NMR tool. | 2022-03-10 |
| 20220075091 | POST-COMPENSATION METHOD FOR MOTION ERRORS OF ROTATING ACCELEROMETER GRAVITY GRADIOMETER - A post-compensation method for motion errors of a rotating accelerometer gravity gradiometer includes the steps of: during moving-base gravity gradient exploration, recording angular and linear motions of a gravity gradiometer; after the exploration, removing angular and linear motion errors from output data of the gravity gradiometer based on an analytical model of the rotating accelerometer gravity gradiometer; while ensuring that the precision of the gravity gradiometer is unchanged, the post-compensation method for the motion errors may be applied to greatly reduce the requirements of the gravity gradiometer for the precision of an online error compensation system, thereby simplifying the circuit design and mechanical design of the rotary accelerometer gravity gradiometer, and making the rotating accelerometer gravity gradiometer simpler and cheaper. | 2022-03-10 |
| 20220075092 | APPARATUS AND METHOD FOR REAL-TIME MONITORING OF GROUNDWATER LEVEL AND SOIL MOISTURE OF GULLY HEAD LANDFILL AREA - An apparatus for real-time monitoring of groundwater level and soil moisture of a gully head landfill area includes: a groundwater observation well set up in a monitoring area; a drop-in liquid level transmitter placed in the groundwater observation well and configured to sense a change of groundwater level and transmit data to an environmental supervision cloud platform (ESCP) through a data collection module; a plurality of soil moisture transmitters arranged in layers on a wall of the groundwater observation well and configured to sense soil moisture; a data collection module configured to receive data from the drop-in liquid level transmitter and transmit the collected signal to an ESCP; and an environmental monitoring host configured to receive data from the soil moisture transmitters and transmit the data to an environmental monitoring cloud platform (EMCP). A user can view real-time data by remotely logging in to the ESCP and EMCP. | 2022-03-10 |
| 20220075093 | METHOD FOR TYPHOON CENTER AUTOMATIC SELECTION USING VECTORS CALCULATED FROM RADAR IMAGE DATA BY OPTICAL FLOW TECHNIQUE, RECORDING MEDIUM AND DEVICE FOR PERFORMING THE METHOD - A method for automatic selection of typhoon center using vectors calculated from radar image data by an optical flow technique includes calculating a valid vector field from the radar image data using the optical flow technique, generating a dense vector field by interpolating an empty spot of the valid vector field using linear interpolation, extracting a rotating component anomaly vector field including typhoon rotating component anomaly vectors by removing a relative vector in the interpolated valid vector field, generating a normal vector intersection point of the vectors of the extracted rotating component anomaly vector field, and finally selecting the typhoon center by calculating a maximum density normal vector intersection point based on a Gaussian kernel density estimation technique. Accordingly, it is possible to detect the moving path of the typhoon rapidly and objectively. | 2022-03-10 |
| 20220075094 | RELATING RAIN INTENSITY AND DYNAMIC RANGE IN COMMERCIAL MICROWAVE LINKS - Computerized method and system for estimating a rain attribute on microwave communications, the estimation being carried out by: obtaining quantized minimum and maximum levels of received signals and transmitted signals over a microwave link during a period; subtracting the quantized maximum level of received signals from the quantized minimum level of transmitted signals to provide a minimal attenuation value; subtracting the quantized minimal level of received signals from the quantized maximal level of transmitted signals to provide a maximal attenuation value; calculating an attenuation difference related to the period by subtracting the minimal attenuation value from the maximal attenuation value; calculating a bias compensated attenuation difference based on the attenuation difference, and bias value related to the microwave link; and calculating the rain attribute, including the average rain during the period, based on the bias compensated attenuation difference. | 2022-03-10 |
| 20220075095 | LAMINATE, ANTIREFLECTION PRODUCT, AND MANUFACTURING METHOD THEREOF - Provided are a laminate including: a glass substrate; a layer (ca) including a binder; a particle (a | 2022-03-10 |
| 20220075096 | DYED LENS AND METHOD OF DYEING LENS - A lens includes a light-transmitting portion and a light-shielding portion adjacent to at least a portion of the light-transmitting portion and integrated with the light-transmitting portion. The light-shielding portion includes at least one of carbon nanotubes and carbon black. | 2022-03-10 |
| 20220075097 | LOW-COLOR SCRATCH-RESISTANT ARTICLES WITH A MULTILAYER OPTICAL FILM - Embodiments of this disclosure pertain to articles that exhibit scratch-resistance and improved optical properties. In some examples, the article exhibits a color shift of about 2 or less, when viewed at an incident illumination angle in the range from about 0 degrees to about 60 degrees from normal under an illuminant. In one or more embodiments, the articles include a substrate, and an optical film disposed on the substrate. The optical film includes a scratch-resistant layer and an optical interference layer. The optical interference layer may include one or more sub-layers that exhibit different refractive indices. In one example, the optical interference layer includes a first low refractive index sub-layer and a second a second high refractive index sub-layer. In some instances, the optical interference layer may include a third sub-layer. | 2022-03-10 |
| 20220075098 | SYSTEMS AND METHODS OF TREATING A HYDROGEL-COATED MEDICAL DEVICE - This present invention discloses kits, solutions, and methods for regenerating a hydrogel coating on a hydrogel coated medical device. The solution comprises a first hydrophilic polymer and a second hydrophilic polymer. The reaction of the first and second hydrophilic polymers with the originally coated surface of the medical device forms an at least partially covalently crosslinked hydrogel layer. The solution may be part of a kit, wherein the first and second hydrophilic polymers are provided separately with or without the medical device included in the kit. The originally coated surface of the medical device has an initial thickness before use or wear and a second thickness before use or wear, the second thickness being less than the first thickness. Treatment of the hydrogel coated medical device with the solutions described herein increased the second thickness to approach a final thickness that is substantially equal to the initial thickness. | 2022-03-10 |
| 20220075099 | METHOD FOR PRODUCING AN APERTURE ARRAY FOR A MICROLENS ARRAY - A method for producing an aperture array for a microlens array, in particular for a microlens array of a vehicle headlamp, comprising at least the following steps: providing a wafer having a microlens array arranged on a first wafer surface, masking a second wafer surface of the wafer by means of a shadow mask, wherein the shadow mask includes a negative of the aperture array, coating the masked wafer surface with an opaque layer, removing the shadow mask and obtaining the aperture array on the second wafer surface. | 2022-03-10 |
| 20220075100 | Lens Structure and Optical Connection Structure - An embodiment lens structure body includes a microlens portion of double-sided asymmetric aspherical shape having a refraction surface on an illuminant side and a refraction surface on an emission side so as to be opposed to the refraction surface, and marker portions formed so as to be joined to both ends of the microlens portion in a direction perpendicular to an optical axis. | 2022-03-10 |
| 20220075101 | LENS COMPRISING AN ADJUSTABLE OPTICAL POWER - The present invention relates to a lens ( | 2022-03-10 |
| 20220075102 | Camera Device - A camera device includes a plurality of lenses and an annular body. The annular body is disposed between the object side and the plurality of lenses, between the plurality of lenses, or between the plurality of lenses and the image side. The annular body includes an annular main body, an outer circumferential portion, and an inner circumferential portion, wherein the annular main body connects to the outer circumferential portion and the inner circumferential portion, the annular main body is disposed between the outer circumferential portion and the inner circumferential portion, and the inner circumferential portion is non-circular and surrounds the optical axis to form a hole. The camera device satisfies: Dx>Dy; where Dx is a maximum dimension of the hole through which the optical axis passes, and Dy is a minimum dimension of the hole through which the optical axis passes. | 2022-03-10 |
| 20220075103 | REFLECTOR - The reflector is provided with plural reflector units. Each reflector unit is shaped as a prism or a cylinder provided with a retroreflective structure at one end, the retroreflective structure is configured to reflect incident rays from the other end of the prism or the cylinder in a direction of incidence, and in a reference cross section of the reflector unit, the reference cross section containing the central axis of the prism or the cylinder and the reference cross section being determined such that the shape of the retroreflective structure is line-symmetric with respect to the central axis in the reference cross section, the shape of a light receiving surface at the other end is line-symmetric with respect to the central axis and has a portion inclined with respect to a direction perpendicular to the central axis in the reflector unit. | 2022-03-10 |
| 20220075104 | IMAGE SENSOR AND ELECTRONIC CAMERA - An image sensor includes: a plurality of filter units, transmission wavelengths of which can be adjusted; a plurality of photoelectric conversion units that receive light transmitted through the filter unit; and a control unit that alters a size of a first region containing a first filter unit, among the plurality of filter units, through which light at a first wavelength is transmitted before entering a photoelectric conversion unit. | 2022-03-10 |
| 20220075105 | Lithium Containing Glass with High Oxidized Iron Content and Method of Making Same - A low infrared absorbing lithium glass includes FeO in the range of 0.0005-0.015 wt %, more preferably 0.001-0.010 wt %, and a redox ratio in the range of 0.005-0.15, more preferably in the range of 0.005-010. The glass can be chemically tempered and used to provide a ballistic viewing cover for night vision goggles or scope. A method is provided to change a glass making process from making a high infrared absorbing lithium glass having FeO in the range of 0.02 to 0.04 wt % and a redox ratio in the range of 0.2 to 0.4 to the low infrared absorbing lithium glass by adding additional oxidizers to the batch materials. A second method is provided to change a glass making process from making a low infrared absorbing lithium glass to the high infrared absorbing lithium glass by adding additional reducers to the batch material. In one embodiment of the invention the oxidizer is CeO | 2022-03-10 |
| 20220075106 | OPTICAL FILTERING DEVICE - A device having a transmission response with a maximum at a wavelength λ | 2022-03-10 |
| 20220075107 | OPTICAL CAMOUFLAGE FILTER - A system may include one or both of a light emitter and a light receiver. The system may include an optical filter adjacent one or both of the light emitter or the light receiver. The optical filter includes a wavelength selective scattering layer. The wavelength selective scattering layer may have a near-infrared scattering ratio of less than about 0.9. The filter may have a visible reflective haze ratio of greater than about 0.5. A method may include disposing the wavelength selective scattering layer adjacent one or both of the light emitter and the light receiver. An article may include the optical filter. The wavelength selective scattering layer may have an average near-infrared scattering of less than 60%, an average visible scattering of greater than 10%, and a difference between the % total visible reflectance and the % diffuse visible reflectance of less than 20. | 2022-03-10 |
| 20220075108 | POLARIZING PLATE AND OPTICAL DISPLAY COMPRISING THE SAME - A polarizing plate and an optical display including the same are provided. A polarizing plate includes a polarizer; and a first retardation layer and a second retardation layer sequentially stacked on a lower surface of the polarizer, and the first retardation layer has a degree of biaxiality (NZ) of less than 0 at a wavelength of 550 nm and is a non-liquid crystal layer, and the second retardation layer has a degree of biaxiality (NZ) of greater than 1 at a wavelength of 550 nm. | 2022-03-10 |
| 20220075109 | DUTY CYCLE RANGE INCREASE FOR WAVEGUIDE COMBINERS - Techniques for fabricating a slanted structure are disclosed. In one embodiment, a method of fabricating a slanted surface-relief structure in a material layer includes forming a thin hard mask on top of an intermediate mask layer, etching the intermediate mask layer at a slant angle using the thin hard mask to form a slanted intermediate mask, and etching the material layer at the slant angle using the slanted intermediate mask to form the slanted surface-relief structure in the material layer. The intermediate mask layer is characterized by an etch rate greater than an etch rate of the material layer. | 2022-03-10 |
| 20220075110 | WAVEGUIDE WITH 2-LAYER STACK-UP - A lightweight stacked optical waveguide using two plastic substrates having nano-structure gratings and a single glass substrate sandwiched between them. The nano-structure gratings face each other, and are each encapsulated within the optical waveguide. The two plastic substrates are each adhesively secured to the central glass substrate rather than to each other to provide sufficient securing strength and precisely establish and maintain an air gap between the substrates. The thickness of the plastic substrates and the glass substrate are selected such that the stacked optical waveguide is lightweight, but also has sufficient drop performance. The stacked optical waveguide can be efficiently manufactured as the adhesive bonds a plastic substrate to a glass substrate. | 2022-03-10 |
| 20220075111 | SURFACE LIGHT SOURCE - A surface light source includes: a light guide plate having an upper surface and a lower surface located opposite the upper surface, and comprising at least one through hole extending from the upper surface to the lower surface; a wiring substrate located on a lower surface side of the light guide plate and comprising a wiring layer; and at least one light source comprising a light-emitting element electrically connected to the wiring layer of the wiring substrate. The light source is located inside the through hole. The upper surface of the light guide plate has a first region including a plurality of protruding portions or depressed portions. In a plan view, a proportion of an area of the protruding portions or depressed portions per unit area of the first region increases among concentric parts of the first region in the direction away from the light source. | 2022-03-10 |
| 20220075112 | INTEGRATION OF AN ACTIVE COMPONENT ON A PHOTONICS PLATFORM - A photonics integrated circuit includes a photonics platform having a waveguide layer having a waveguide and a wiring substrate with an active component positioned thereon and extending therefrom. The active component has a component top surface facing away from the wiring substrate and component side surfaces through which radiation can be coupled. The photonics platform comprises a recess wherein the active component can be positioned such that the component top surface of the active component is positioned on a surface of the recess. The photonics platform and the active component are being configured for allowing lateral optical coupling between the waveguide in the photonics platform and at least one of the component side surfaces of the active component. | 2022-03-10 |
| 20220075113 | OPTICAL GYROSCOPES AND METHODS OF MANUFACTURING OF OPTICAL GYROSCOPES - The disclosed structures and methods are directed to a chip for an optical gyroscope and methods of manufacturing of the chip for the optical gyroscope. The chip comprises a substrate, a waveguide having a first waveguide cladding layer and a waveguide core; and a ring resonator having a first ring cladding layer and a ring resonator core attached to the first ring cladding layer. A side wall of the ring resonator core forms an obtuse angle with an upper surface of the substrate. The method comprises depositing a first cladding layer on an upper surface of a silicon substrate; depositing a core layer; depositing a resist mask pattern to define a form of a ring resonator core and a form of a waveguide core; etching the core layer outside of the resist mask pattern; and stripping the resist mask pattern off. | 2022-03-10 |
| 20220075114 | Resonant device improvement in PICs using spare devices to reduce power requirements - A Photonic Integrated Circuit (PIC) includes N Ring and Disk type Microstructures (RDMs), N is an integer and greater than 1; at least one spare RDM, wherein each RDM operates spectrally in a periodic nature and has its spectral operation vary by temperature; and circuitry configured to handoff any of the N RDMs and the at least one spare RDM for spectral operation based on a current temperature. For the handoff, the at least one spare RDM is unlocked spectrally and is tuned and locked to a frequency of interest of a current RDM based on the temperature, and the current RDM is unlocked. | 2022-03-10 |
| 20220075115 | METHOD FOR DETECTING LOW-POWER OPTICAL SIGNAL WITH HIGH SENSITIVITY - A method for making a pair of photodiodes to detect low-power optical signal includes providing a waveguide including one or more branches in a silicon photonics substrate to deliver an input optical signal to the silicon photonics integrated circuit; forming a pair of nearly redundant photodiodes in silicon photonics platform in the silicon photonics substrate. coupling a first one of the pair of nearly redundant photodiodes optically to each of the one or more branches for receiving the input optical signal combined from all of the one or more branches; coupling a second one of the pair of nearly redundant photodiodes electrically in series to the first one of the pair of nearly redundant photodiodes; and drawing a current from the first one of the pair of nearly redundant photodiodes under a reversed bias voltage applied to the pair of nearly redundant photodiodes. | 2022-03-10 |
| 20220075116 | Photonic Crystal Optical Resonator - First lattice elements shift away from a light confinement portion in a second direction. Second lattice elements shift away from the light confinement portion in the second direction. Third lattice elements shift away from the light confinement portion in the second direction. A shift amount of the first lattice elements is 0.05 to 0.5 times as large as a crystal period. A shift amount of the second lattice elements is 0.02 to 0.5 times as large as the crystal period. A shift amount of the third lattice elements is 0.01 to 0.5 times as large as the crystal period. | 2022-03-10 |
| 20220075117 | Stress Compensating Pick-up Tool - A stress compensating pick-up tool for aligning a companion chip with a host chip includes a tool tip and an actuator. The tool tip holds the companion chip, and includes a first tip portion and a second tip portion. The actuator applies a force to the tool tip, wherein the force causes the first tip portion and the second tip portion to rotate in opposite directions with respect to one another to optically align a portion of the companion chip with a corresponding portion of the host chip. | 2022-03-10 |
| 20220075118 | AIR POCKET STRUCTURES FOR PROMOTING TOTAL INTERNAL REFLECTION IN A WAVEGUIDE - Recesses are formed on a front side and a rear side of a waveguide. A solid porogen material is spun onto the front side and the rear side and fills the recesses. First front and rear cap layers are then formed on raised formations of the waveguide and on the solid porogen material. The entire structure is then heated and the solid porogen material decomposes to a porogen gas. The first front and rear cap layers are porous to allow the porogen gas to escape and air to enter into the recesses. The air maximizes a difference in refractive indices between the high-index transparent material of the waveguide and the air to promote reflection in the waveguide from interfaces between the waveguide and the air. | 2022-03-10 |
| 20220075119 | SPACE OPTICAL COUPLING APPARATUS - A space optical coupling apparatus, including M first couplers, a phase adjustment apparatus, N beam splitters, M second couplers, a coupling apparatus, and a controller. The first coupler receives a beam, and couples the beam to the phase adjustment apparatus. The phase adjustment apparatus includes M phase adjusters, N beam splitters, and N detectors. Each beam splitter is configured to split a received beam into two beams, one sent to a corresponding detector and the other sent to a corresponding phase adjuster. The second coupler receives output light from the coupling apparatus, and transmits the output light into the space. The coupling apparatus is configured to couple a beam onto a single-mode fiber. The controller is configured to control, based on the beam intensity detected by the detector and the beam intensity on the single-mode fiber, the M phase adjusters to adjust the phases of the received beams. | 2022-03-10 |
| 20220075120 | OPTICAL FIBER AND MANUFACTURING METHOD THEREOF - To provide an optical connector that can prevent degradation of end faces of cores using a simple structure. The optical connector is adapted to connect single-mode optical fibers for visible light with a wavelength of less than or equal to 650 nm to ultraviolet light, specifically, connect the optical fibers by allowing ferrules having fixed thereto the respective optical fibers to be inserted into a sleeve and allowing the ferrules to butt against each other, in which a film of nitride, oxide, or fluoride is formed on an end face of each of the optical fibers and the ferrules. | 2022-03-10 |
| 20220075121 | OPTICAL FIBER DEVICES AND METHODS FOR DIRECTING STIMULATED RAMAN SCATTERING (SRS) LIGHT OUT OF A FIBER - Optical fiber devices, systems, and methods for coupling Raman spectrum out of an optical fiber selectively over a signal spectrum, which may be propagated in one or more guided modes of a fiber system. A fiber system may include a chirped fiber Bragg grating (CFBG) or a long period fiber grating (LPFG), each to unguide Raman light propagating in a core propagation mode of a fiber completely out of the fiber (through any surrounding cladding layer(s)) selectively over signal spectrum which is to remain in a guided mode of the fiber. | 2022-03-10 |
| 20220075122 | FIBER OPTIC STORAGE DEVICES FOR FIBER DISTRIBUTION HUBS - A fiber optic storage module configured to be coupled with a fiber distribution hub includes a first wall and a second wall that extends from a first end of the first wall in a direction perpendicular to the first wall. The first wall includes a retaining structure configured to receive and retain a cable portion of a fiber optic cable, and the second wall includes a cutout configured to receive a dust cap coupled with a connector that terminates the fiber optic cable. | 2022-03-10 |
| 20220075123 | MULTIPORTS AND OTHER DEVICES HAVING OPTICAL CONNECTION PORTS WITH SLIDING ACTUATORS AND METHODS OF MAKING THE SAME - Devices such as multiports comprising connection ports with associated sliding actuators that engage securing members and methods for making the same are disclosed. In one embodiment, the device comprises a shell, at least one connection port, and at least one sliding actuator that engages with a complimentary securing member. The at least one connection port is disposed on the multiport with the at least one connection port comprising an optical connector opening extending from an outer surface of the multiport to a cavity of the multiport and defining a connection port passageway. The at least one securing member is associated with the connection port passageway and translating the sliding actuator allows the release of an optical connector disposed in the connection port. | 2022-03-10 |
| 20220075124 | FERRULE STRUCTURE, METHOD FOR MANUFACTURING FERRULE STRUCTURE, FERRULE, AND LENS UNIT - A ferrule structure includes a ferrule including a plurality of unit holes, and a plurality of lens units, wherein each lens unit includes a lens part attached to an end part of an optical fiber, and each lens unit is molded from a resin for transmittance an optical signal, and each lens unit is to be inserted in one of the unit holes. | 2022-03-10 |
| 20220075125 | FIBER OPTIC CONNECTOR, FIBER OPTIC CONNECTOR AND CABLE ASSEMBLY, AND METHODS FOR MANUFACTURING - A fiber optic cable and connector assembly including a fiber optic connector mounted at the end of a fiber optic cable. The fiber optic connector includes a ferrule assembly including a stub fiber supported within a ferrule. The stub fiber is fusion spliced to an optical fiber of the fiber optic cable at a location within the fiber optic connector. | 2022-03-10 |
| 20220075126 | ULTRA-SMALL FORM FACTOR OPTICAL CONNECTOR AND ADAPTER - An optical connector holding two or more LC-type optical ferrules is provided. The optical connector includes an outer body, an inner front body accommodating the two or more LC-type optical ferrules, ferrule springs for urging the optical ferrules towards a mating receptacle, and a back body for supporting the ferrule springs. The outer body and the inner front body are configured such that four LC-type optical ferrules are accommodated in a small form-factor pluggable (SFP) transceiver footprint or eight LC-type optical ferrules are accommodated in a quad small form-factor pluggable (QSFP) transceiver footprint. A mating receptacle (transceiver or adapter) includes internal alignment slots configured to accept a corresponding alignment key on connector outer housing to ensure alignment and orientation for maximum signal transfer between opposing ferrule end faces. | 2022-03-10 |
| 20220075127 | FIBER OPTIC CONNECTORS AND CONNECTORIZATION EMPLOYING ADHESIVE ADMITTING ADAPTERS - Fiber optic connectors, connector housings, connectorized cable assemblies, and methods for the connectorization of cable assemblies are provided with particular cable adapter features, adapter extensions, multi-diametrical sealing flexures, subcutaneous sealing elements, and combinations thereof, for improved connector and cable performance, integrity, and durability. | 2022-03-10 |
| 20220075128 | OPTICAL CONNECTOR AND OPTICAL CONNECTOR MODULE AND OPERATION METHOD USING THE SAME - The present invention provides an optical connector coupled to an optical receptacle, wherein the optical connector comprises an outer housing, a coupling module, and a latch structure. The coupling module is arranged in the outer housing for slidably connecting to the outer housing. When the latch structure is rotated to a first position, the optical connector is unable to be released from the optical receptacle; and when the latch structure is rotated to a second position, the outer housing is allowed to slide relative to coupling module whereby the optical connector is released from the optical receptacle. In one alternative embodiment, the present invention further provides an optical module and an operation method for locking the optical connector into the optical receptacle, or releasing the optical connector from the optical receptacle. | 2022-03-10 |
| 20220075129 | OPTICAL CONNECTOR, OPTICAL CABLE, AND ELECTRONIC APPARATUS - To successfully reduce a coupling loss in optical power on the reception side that occurs due to an axial deviation on the transmission side. A connector body is included that includes a lens performing formation with respect to light that exits a light emitter, and causing light obtained by the formation to exit the lens. The lens includes a circular first lens portion situated in a center portion of the lens, and a ring-shaped second lens portion situated around an outer circumference of the first lens portion. The second lens portion changes a light path of a portion of input light when the portion of the input light is input to the second lens portion, such that the light path of the portion of the input light is oriented toward a direction of an optical axis of the lens, the input light being input light of which an optical axis deviates from the optical axis of the lens. | 2022-03-10 |
| 20220075130 | INTEGRATED WAVEGUIDE COUPLER - A waveguide coupler includes a first waveguide and a second waveguide. The waveguide coupler also includes a connecting waveguide disposed between the first waveguide and the second waveguide. The connecting waveguide includes a first material having a first index of refraction and a second material having a second index of refraction higher than the first index of refraction. | 2022-03-10 |
| 20220075131 | LASER AND PHOTONIC CHIP INTEGRATION - Embodiments herein describe optical assemblies that use a spacer element to attach and align a laser to a waveguide in a photonic chip. Once aligned, the laser can transfer optical signals into the photonic chip which can then perform an optical function such as modulation, filtering, amplification, and the like. In one embodiment, the spacer element is a separate part (e.g., a glass or semiconductor block) that is attached between the photonic chip and a submount on which the laser is mounted. The spacer establishes a separation distance between the photonic chip and the submount which in turn aligns the laser with the waveguide in the photonic chip. In another embodiment, rather than the spacer element being a separate part, the spacer element may be integrated into the submount. | 2022-03-10 |
| 20220075132 | RACK-MOUNTABLE EQUIPMENT WITH A HIGH-HEAT-DISSIPATION MODULE, AND TRANSCEIVER RECEPTACLE WITH INCREASED COOLING - An electrical connector includes a heat dissipation module with a first end and a second end opposed to the first end and two receptacle connectors located at the second end. The first and second ends define a transceiver-mating direction such that, when a transceiver is inserted into the first end of the heat dissipation module in the transceiver-mating direction, the transceiver mates with one of the two receptacle connectors, and in the heat dissipation module, air flows parallel to the transceiver-mating direction between the first and second ends and flows between the two receptacle connectors. | 2022-03-10 |
| 20220075133 | OPTICAL TRANSCEIVER - An optical transceiver includes a housing, a heat dissipation module and an optical communication module. The heat dissipation module includes a first heat conductive component and a second heat conductive component accommodated in the housing. The first heat conductive component and the second heat conductive component are two independent components, and the first heat conductive component thermally contacts the second heat conductive component. The optical communication module is accommodated in the housing and thermally contacts the heat dissipation module. | 2022-03-10 |
| 20220075134 | INTERMITTENT CONNECTION-TYPE OPTICAL FIBER TAPE CORE WIRE, OPTICAL FIBER CABLE, AND METHOD FOR MANUFACTURING INTERMITTENT CONNECTION-TYPE OPTICAL FIBER TAPE CORE WIRE - Provided is an intermittently coupled-type optical fiber ribbon in which, in a state where a plurality of optical fibers are arranged in parallel, coupling portions at which adjacent optical fibers are coupled by a coupling resin and non-coupling portions at which the adjacent optical fibers are not coupled are intermittently provided in a longitudinal direction, the coupling portions and the on-coupling portions being provided between some or all of the plurality of optical fibers, in which at least some of the non-coupling portions include a convex portion of the coupling resin, a tip end of the convex portion having an acute angle in a cross-sectional view in a direction orthogonal to the longitudinal direction. | 2022-03-10 |
| 20220075135 | FIBER DISTRIBUTION HUB - The present disclosure relates to a telecommunications distribution hub having a cabinet that defines a primary compartment. The cabinet also includes one or more main doors for accessing the primary compartment. Telecommunications equipment is mounted within the primary compartment. The distribution hub further includes a secondary compartment that can be accessed from an exterior of the cabinet without accessing the primary compartment. A grounding interface is accessible from within the secondary compartment. | 2022-03-10 |
| 20220075136 | TELECOMMUNICATIONS SYSTEM - A telecommunications system includes a chassis defining a first side and an opposite second side. A tray is pivotally mounted to the chassis between a closed storage position and an open access position relative to the chassis. At least one telecommunications component is removably mounted to the tray. One of an input or output cable from the telecommunications component extends out to an exterior of the chassis from the first side of the chassis, and the other of the input or output cable from the telecommunications component follows a cable path across the chassis, positioned above the pivotable tray, and extends out to the exterior of the chassis from the opposite second side of the chassis. | 2022-03-10 |
| 20220075137 | Fiber Optic Splitter Modules and Systems - In one instance, a fiber distribution hub for use in a passive optical network includes a cabinet having an interior space and a vertical cable management tower extending vertically from a bottom portion of the cabinet or cabinet frame and having a plurality of cable management spools. The vertical cable management tower is coupled to the cabinet or cabinet frame to define a splitter area to one side and a storage area to another side. The hub further includes a plurality of storage spools coupled to the cabinet or cabinet frame in the storage area and a plurality of distribution cables introduced into the interior space of the cabinet and having distribution fibers formed into a plurality of fiber groups at distal ends of the distribution fibers. The plurality of distribution cables is positioned to drape over one or more of the plurality of storage spools for storage until use. | 2022-03-10 |
| 20220075138 | APPARATUS AND IMAGE PICKUP APPARATUS - An apparatus includes a lens, a holder, and a retainer. The lens is held with the lens being pressed against the holder by the retainer in a direction parallel to an optical axis of the lens. The lens includes a first outer periphery, a second outer periphery, a first contact portion in contact with the holder, and a second contact portion in contact with the retainer. In a direction orthogonal to the optical axis, the first outer periphery, the first contact portion and the second contact portion are arranged farther away from the optical axis than the second outer periphery. The holder is configured to hold the lens such that the holder is fitted to the second outer periphery and is not in contact with the first outer periphery. | 2022-03-10 |
| 20220075139 | CAMERA MODULE INCLUDING LIQUID LENS, AND CONTROL METHOD THEREOF - A camera module includes a liquid lens including a first plate and an individual electrode disposed on a first surface of the first plate; a resistor disposed on the first surface of the first plate so as to be spaced apart from the individual electrode; and a temperature sensor connected to the resistor and configured to sense a temperature of the liquid lens and a heating controller connected to the resistor and configured to control a temperature of the liquid lens. | 2022-03-10 |
| 20220075140 | LENS BARREL AND OPTICAL DEVICE - A lens barrel and an optical device that can be reduced in size. A lens barrel includes: a cylinder cam with a cam groove; a first movement section having a first cam follower that moves along one side surface of the cam groove in the optical axis OA direction; and a second movement section having a second cam follower that moves along the other side surface of the cam groove in the optical axis OA direction. The position of the first cam follower in the optical axis OA direction and the position of the second cam follower in the optical axis OA direction can overlap each other at least partially. | 2022-03-10 |
| 20220075141 | ZOOM LENS, OPTICAL APPARATUS AND METHOD FOR MANUFACTURING THE ZOOM LENS - A zoom lens comprises, in order from an object: a first lens group (G1) having positive refractive power; a second lens group (G2) having negative refractive power; a third lens group (G3) having positive refractive power; a fourth lens group (G4) having negative refractive power; and a fifth lens group (G5) having positive refractive power, in which the first to the fifth lens groups (G1 to G5) each move in an optical axis direction upon zooming from a wide angle end state to a telephoto end state, at least a part of the fourth lens group (G4) is configured to serve as a focusing lens group to move in the optical axis direction upon focusing, the first lens group (G1) consists of two lenses, and the following conditional expression is satisfied. | 2022-03-10 |
| 20220075142 | Lens Having a Fixed Focal Length and Constant Overall Length for Auto Focus Applications - A lens system with a fixed focal length includes five lens groups. The five lens groups include a first lens group, a second lens group configured as a focusing front group, a third lens group having a negative refractive power, a fourth lens group configured as a focusing back group, and a fifth lens group. The fifth lens group has a positive refractive power that is arranged in a stationary manner relative to an imaging plane in a lens barrel and both the focusing front group and the focusing back group are movable jointly relative to one another and to the lens groups arranged in a stationary manner in order to focus the fixed focus length lens system on objects at different object distances. | 2022-03-10 |
| 20220075143 | CAMERA OPTICAL LENS - A camera optical lens is provided. The camera optical lens includes, from an object side to an image side: a first lens, a second lens having a negative refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, and a ninth lens. The camera optical lens satisfies following conditions: 0.80≤f1/f≤1.80; and 1.50≤d3/d4≤8.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d3 denotes an on-axis thickness of the second lens, and d4 denotes an on-axis distance from an image side surface of the second lens to an object side surface of the third lens. The camera optical lens according to the present disclosure meets design requirements for large aperture and ultra-thinness while achieving good optical performance. | 2022-03-10 |
| 20220075144 | CAMERA OPTICAL LENS - A camera optical lens is provided, including from an object side to an image side: a first lens; a second lens having negative refractive power; a third lens; a fourth lens; a fifth lens; a sixth lens; a seventh lens; an eighth lens; and a ninth lens, wherein the camera optical lens satisfies following conditions: 0.70≤f | 2022-03-10 |
| 20220075145 | CAMERA OPTICAL LENS - A camera optical lens is provided. The camera optical lens includes, from an object side to an image side, a first lens, a second lens having a negative refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, and a ninth lens. The camera optical lens satisfies following conditions: 0.70≤f1/f≤1.90; and 2.00≤d5/d6≤9.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d5 denotes an on-axis thickness of the third lens, and d6 denotes an on-axis distance from an image side surface of the third lens to an object side surface of the fourth lens. The camera optical lens according to the present disclosure meets design requirements for large aperture, wide angle and ultra-thinness while achieving good optical performance. | 2022-03-10 |
| 20220075146 | CAMERA OPTICAL LENS - A camera optical lens is provided. The camera optical lens includes, from an object side to an image side, a first lens, a second lens, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, and a ninth lens. The camera optical lens satisfies following conditions: 0.90≤f1/f≤2.00; and 2.50≤d13/d14≤12.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d13 denotes an on-axis thickness of the seventh lens is defined as d13, and d14 denotes an on-axis distance from an image side surface of the seventh lens to an object side surface of the eighth lens. The camera optical lens according to the present invention has better optical performance while satisfying design requirements for ultra-thin, wide-angle lenses having large apertures. | 2022-03-10 |
| 20220075147 | CAMERA OPTICAL LENS - A camera optical lens is provided. The camera optical lens includes, from an object side to an image side, a first lens, a second lens having a negative refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, and a ninth lens. The camera optical lens satisfies following conditions: 0.50≤f1/f≤1.50; and 3.00≤d9/d10≤15.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d9 denotes an on-axis thickness of the fifth lens, and d10 denotes an on-axis distance from an image-side surface of the fifth lens to an object-side surface of the sixth lens. The camera optical lens according to the present disclosure satisfies design requirements for large-aperture, wide-angle, and ultra-thin lenses while achieving good optical performance. | 2022-03-10 |
| 20220075148 | CAMERA OPTICAL LENS - A camera optical lens is provided. The camera optical lens includes, from an object side to an image side, a first lens, a second lens having a negative refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, and a ninth lens. The camera optical lens satisfies following conditions: 0.60≤f1/f≤1.50; and 2.50≤d7/d8≤12.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d7 denotes an on-axis thickness of the fourth lens, and d8 denotes an on-axis distance from an image side surface of the fourth lens to an object side surface of the fifth lens. The camera optical lens according to the present disclosure satisfies design requirements for large-aperture, wide-angle, and ultra-thin lenses while achieving good optical performance. | 2022-03-10 |
| 20220075149 | CAMERA OPTICAL LENS - A camera optical lens is provided. The camera optical lens includes, from an object side to an image side, a first lens, a second lens having a negative refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, and a ninth lens. The camera optical lens satisfies following conditions: 0.60≤f1/f≤1.80; and 1.50≤d11/d12≤8.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d11 denotes an on-axis thickness of the sixth lens, and d12 denotes an on-axis distance from an image side surface of the sixth lens to an object side surface of the seventh lens. The camera optical lens according to the present disclosure satisfies design requirements for large-aperture, wide-angle, and ultra-thin lenses while achieving good optical performance. | 2022-03-10 |
| 20220075150 | CAMERA OPTICAL LENS - A camera optical lens is provided. The camera optical lens includes, from an object side to an image side, a first lens, a second lens having a positive refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, and a ninth lens. The camera optical lens satisfies following conditions: 3.50≤f1/f≤6.00, and 1.50≤d15/d16≤9.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens is defined as f1, d15 denotes an on-axis thickness of the eighth lens, and d16 denotes an on-axis distance from an image side surface of the eighth lens to an object side surface of the ninth lens. The camera optical lens has a good optical performance, and meets design requirements of a large aperture, wide-angle and ultra-thinness. | 2022-03-10 |
| 20220075151 | CAMERA OPTICAL LENS - A camera optical lens is provided. The camera optical lens includes, from an object side to an image side, a first lens, a second lens having a positive refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, and a ninth lens. The camera optical lens satisfies following conditions: 3.50≤f1/f≤6.50; and 3.00≤d13/d14≤15.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d13 denotes an on-axis thickness of the seventh lens, and d14 denotes an on-axis distance from an image side surface of the seventh lens to an object side surface of the eighth lens. The camera optical leans according to the present disclosure has good optical performance while satisfying design requirements for ultra-thin, wide-angle lenses having large apertures. | 2022-03-10 |
| 20220075152 | CAMERA OPTICAL LENS - A camera optical lens is provided and includes, from an object side to an image side, a first lens to a ninth lens. Each of the first lens, the second lens, the fourth lens, the sixth lens, the seventh lens, and the eighth lens has a positive refractive power, and each of the third lens, the fifth lens, and the ninth lens has a negative refractive power. The camera optical lens satisfies following conditions: 3.50≤f1/f≤7.00; and 2.00≤d11/d12≤9.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d11 denotes an on-axis thickness of the sixth lens, and d12 denotes an on-axis distance from an image side surface of the sixth lens to an object side surface of the seventh lens. The camera optical lens meets design requirements for large aperture, wide angle and ultra-thinness while achieving good optical performance. | 2022-03-10 |
| 20220075153 | CAMERA OPTICAL LENS - A camera optical lens is provided and includes, from an object side to an image side, a first lens and a second lens that have positive refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens having a positive refractive power, a seventh lens having a negative refractive power, an eighth lens having a positive refractive power, and a ninth lens having a negative refractive power. The camera optical lens satisfies: 3.80≤f1/f≤7.50; and 3.00≤d9/d10≤12.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d9 denotes an on-axis thickness of the fifth lens, and d10 denotes an on-axis distance from an image side surface of the fifth lens to an object side surface of the sixth lens. The camera optical lens meets design requirements for large aperture, wide angle and ultra-thinness while having good optical performance. | 2022-03-10 |
| 20220075154 | CAMERA OPTICAL LENS - A camera optical lens is provided and includes nine lens, which are a first lens to a ninth lens from an object side to an image side. Each of the first lens, the second lens, the fourth lens, the seventh lens and the eighth lens has a positive refractive power, and each of the third lens, the fifth lens, the sixth lens and the ninth lens has a negative refractive power. The camera optical lens satisfies following conditions: 3.50≤f1/f≤6.50; and 2.00≤d7/d8≤10.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d7 denotes an on-axis thickness of the fourth lens, and d8 denotes an on-axis distance from an image side surface of the fourth lens to an object side surface of the fifth lens. The camera optical lens meets design requirements for large aperture, wide angle and ultra-thinness. | 2022-03-10 |
| 20220075155 | CAMERA OPTICAL LENS - Provided is a camera optical lens, including, from object side to image side, a first lens having positive refractive power; a second lens having positive refractive power; a third lens having positive refractive power; a fourth lens having positive refractive power; a fifth lens having negative refractive power; a sixth lens; a seventh lens having negative refractive power; an eighth lens having positive refractive power; and a ninth lens having negative refractive power. The camera optical lens satisfies 3.50≤f1/f≤5.00 and 2.50≤d3/d4≤10.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d3 denotes an on-axis thickness of the second lens, and d4 denotes an on-axis distance from an image side surface of the second lens to an object side surface of the third lens. The lens has large aperture, wide angle and ultra-thinness while having good optical performance. | 2022-03-10 |
| 20220075156 | CAMERA OPTICAL LENS - Disclosed is a camera optical lens including six lenses from an object side to an image side being: a first lens with a positive refractive power, a second lens with a negative refractive power, a third lens with a negative refractive power, a fourth lens with a positive refractive power, a fifth lens with a negative refractive power, and a sixth lens. The camera optical lens satisfies: −5.00≤f2/f≤−2.00; 3.00≤R9/R10≤20.00; wherein, f denotes a focal length of the camera optical lens, f2 denotes a focal length of the second lens, R9 denotes a central curvature radius of an object-side surface of the fifth lens, and R10 denotes a central curvature radius of an image-side surface of the fifth lens. | 2022-03-10 |
| 20220075157 | CAMERA OPTICAL LENS - Disclosed is a camera optical lens including six lenses from an object side to an image side being: a first lens with a positive refractive power, a second lens with a negative refractive power, a third lens with a negative refractive power, a fourth lens with a positive refractive power, a fifth lens with a negative refractive power, and a sixth lens with a negative refractive power. The camera optical lens satisfies: 65.00≤v1≤90.00; 2.00≤d8/d9≤8.00; wherein, v1 denotes an abbe number of the first lens, d8 denotes an on-axis distance from an image-side surface of the fourth lens to an object-side surface of the fifth lens, and d9 denotes an on-axis thickness of the fifth lens. | 2022-03-10 |
| 20220075158 | CAMERA OPTICAL LENS - A camera optical lens is provided. The camera optical lens includes, from an object side to an image side, a first lens, a second lens having a positive refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, an eighth lens, and a ninth lens. The camera optical lens satisfies following conditions: 4.00≤f1/f≤7.00, and 3.00≤d5/d6≤12.00, where f denotes a focal length of the camera optical lens, f1 denotes a focal length of the first lens, d5 denotes an on-axis thickness of the third lens, and d6 denotes an on-axis distance from an image side surface of the third lens to an object side surface of the fourth lens. The camera optical leans according to the present disclosure has better optical performance while satisfying design requirements for ultra-thin, wide-angle lenses having large apertures. | 2022-03-10 |
| 20220075159 | LITHOGRAPHY PROJECTION OBJECTIVE - Provided a lithography projection objective includes: first lens group, second lens group, third lens group, fourth lens group, and fifth lens group, wherein first lens group, second lens group, third lens group, fourth lens group, and fifth lens group are sequentially arranged along an optical axis; first lens group and third lens group each has negative optical power, second lens group and fourth lens group each has positive optical power, fifth lens group has optical power of 0, sum optical power of first lens group, second lens group, third lens group, fourth lens group, and fifth lens group is 0; lithography projection objective further includes diaphragm; and first lens group, third lens group, and fourth lens group each comprises aspheric lenses, one aspheric lens thereof includes an aspherical surface; and a number of aspheric lenses is greater than or equal to 4 and less than or equal to 8. | 2022-03-10 |
| 20220075160 | OPTICAL LENS ASSEMBLY, CAMERA UNIT AND ELECTRONIC DEVICE - An optical lens assembly includes: a diaphragm, a zoom lens group, a light deflecting assembly and a compensating lens group sequentially arranged along an optical axis and from an object side to an imaging plane. The optical axis comprises a first optical axis segment between the diaphragm and the light deflecting assembly, and a second optical axis segment between the light deflecting assembly and the compensating lens group. The zoom lens group is located on the first optical axis segment, and the first optical axis segment is different from the second optical axis segment. The optical lens assembly may be incorporated in a camera unit and an electronic device. | 2022-03-10 |
| 20220075161 | CAMERA MODULE - A camera module includes a housing, and a reflective module changing a direction of light incident on the housing. The reflective module includes a first reflective member having a reflective surface, a holder fixedly coupled to the first reflective member, a first magnetic member mounted on the holder, and a second magnetic member mounted in the housing, facing the first reflective member, and spaced apart from the first magnetic member. | 2022-03-10 |
| 20220075162 | Combined Zoom Dual-Camera Lens Assembly - The disclosure provides a combined zoom dual-camera lens assembly, which includes a first lens group and a second lens group, wherein a field of view of the second lens group is larger than a field of view of the first lens group, and a thickness of the second lens group is smaller than a thickness of the first lens group; and a total effective focal length f | 2022-03-10 |
| 20220075163 | IMAGE CAPTURING LENS SYSTEM, IMAGE CAPTURING UNIT AND ELECTRONIC DEVICE - An image capturing lens system includes three lens groups including five lens elements. The three lens groups are, in order from an object side to an image side: first, second and third lens groups. The five lens elements are, in order from the object side to the image side: first, second, third, fourth and fifth lens elements. The first lens element has an object-side surface being convex in a paraxial region thereof. The second lens element has negative refractive power. At least one lens element has an inflection point. A focal length of the image capturing lens system is varied by changing axial distances between the three lens groups in a zooming process. The image capturing lens system has a long-focal-length end and a short-focal-length end. The second lens group is moved relative to the first lens group along an optical axis in the zooming process. | 2022-03-10 |
| 20220075164 | COMPACT, CATADIOPTRIC AND ATHERMAL IMAGING SPECTROMETER - A compact, catadioptric and athermal imaging spectrometer is disclosed. A telecentric light ( | 2022-03-10 |
| 20220075165 | LENS AND PRISM COMBINATION FOR DIRECTING LIGHT TOWARD A PROJECTOR LENS - A combination comprises at least one lens and at least one prism. The at least one lens and the at least one prism are in an optical path of a corresponding at least one light source. The combination is configured to direct light radiating from the at least one light source toward a projector lens. | 2022-03-10 |
| 20220075166 | Mobile Microscope Assembly - A microscope assembly can be used during microbiological processes. The microscope assembly includes a lens assembly for magnified imaging of an object range in an imaging plane along an optical path; a sample receiving unit for a sample arranged in the object range; and a camera receiving unit for receiving a camera in a range of the imaging plane the camera adapted to generate a digital image of the sample; where the lens assembly is a ball lens, a halved ball lens, or a lens in the form of a rotational spheroid; and the camera receiving unit is adapted to receive a customary mobile end device equipped with a camera or a camera cooperating with a mobile end device. | 2022-03-10 |
| 20220075167 | ILLUMINATION SYSTEM AND METHOD FOR OPHTHALMIC SURGICAL MICROSCOPES - The disclosure provides an ophthalmic surgical microscope including an optical axis. The ophthalmic surgical microscope also includes at least one light source configured to provide illumination having a wavelength range between 575 nm and 625 nm. The ophthalmic surgical microscope further includes a control device for directing the illumination at an acute angle relative to the optical axis of the microscope. | 2022-03-10 |
| 20220075168 | MOUNTABLE DENTAL/SURGICAL MICROSCOPE - A mountable dental/surgical microscope is an apparatus that attaches to a medical overhead light. The apparatus includes an overhead attachment mechanism, a positioning arm, a stereoscopic ocular, and a light-modifying scope. The overhead attachment mechanism attaches the apparatus to the medical overhead light. The positioning arm allows a user to reposition the apparatus in order to better view an object through the apparatus. The light-modifying scope condenses, collimates, focuses, and magnifies the light traversing through the apparatus, which allows the user to better view the object through the apparatus. The stereoscopic ocular allows the user to comfortably view the object by redirecting an optical image of the object to a desirable position offset from the light-modifying scope. | 2022-03-10 |
| 20220075169 | Arrangement for light sheet microscopy, immersion objective, and method for reducing aberrations - An arrangement for light sheet microscopy contains an illumination objective for illuminating a sample located on a slide in a medium with a light sheet, a detection objective, a separation layer system, a first adaptive optical detection correction element, and a further adaptive optical detection correction element and/or a first adaptive optical illumination correction element, and optionally, a further adaptive optical illumination correction element. The arrangement contains an adjustment device for the controlled movement of the first detection correction element and of the further detection correction element and/or of the first illumination correction element and of the further illumination correction element; and a control unit, to generate control commands and to actuate the adjustment devices by means of the control commands such that aberrations are reduced. Corresponding objectives and a corresponding method for reducing aberrations can be used. | 2022-03-10 |
| 20220075170 | APPARATUS AND METHOD FOR LIGHT-BEAM SCANNING MICROSPECTROMETRY - Disclosed is an apparatus for light-beam scanning microscopy including a microscope objective and a movement system for moving an excitation light beam. The movement system for moving the excitation light beam includes a first focusing optical component suitable for focusing the excitation light beam in an intermediate focal plane, another focusing optical component suitable for forming an image of the intermediate focal plane in a focal plane of the microscope objective and a single scanning mirror arranged between the first optical component and the intermediate focal plane, the scanning mirror being mounted on a stage, the orientation of which can be adjusted, so as to move the image of the focusing point in two transverse directions in the object focal plane or in the image focal plane of the microscope objective. | 2022-03-10 |
| 20220075171 | LIGHT MICROSCOPE WITH PHOTON-COUNTING DETECTOR ELEMENTS AND IMAGING METHOD - A light microscope has a light source for illuminating a specimen, a photon-counting detector array with a plurality of photon-counting detector elements for measuring detection light coming from the specimen, wherein the photon-counting detector elements are configured to output respective measured photon count rates, and a control device for controlling the photon-counting detector array. The control device is configured to individually influence the measurable photon count rates which are simultaneously measurable with different photon-counting detector elements and/or which are consecutively measurable with the same photon-counting detector element. Furthermore, in an imaging method the measurable photon count rates of photon-counting detector elements are individually influenced to increase the signal-to-noise ratio for the photon-counting detector array. | 2022-03-10 |
| 20220075172 | OPTICAL SYSTEM AND METHOD FOR IMAGING AN OBJECT - An optical system for imaging an object onto an image plane of a microscope comprises a first lens group and a fourth lens group which are stationary, and a second lens group and a third lens group which are independently movable along an optical axis (O) of the optical system for focusing the object onto the image plane while zooming between a short focal length extremity and a long focal length extremity. | 2022-03-10 |
| 20220075173 | AUTOMATED MICROSCOPE OBJECTIVE DETECTOR - A microscope can be retrofitted with a nosepiece configured with a miniaturized inertial measurement sensor and an associated wireless transmitter that functions to relay information as to the current position of the nosepiece as determined by the inertial measurement sensor thereby indicating which objective lens is in the optical path to an external computing device. Alternatively, the nosepiece can configured with a miniaturized inertial measurement sensor generating an electrical signal indicating the current position of the nosepiece or equivalently the current objective lens in the optical path, and a cable for carrying power to the sensor, the electrical signal to internal electronics of the microscope, or both. This latter configuration is suitable in the situation where the microscope is configured with this arrangement, as manufactured. | 2022-03-10 |
| 20220075174 | Slide Imaging Apparatus - A slide imaging apparatus that includes a copy holder moving system and an imaging system. The copy holder moving system includes a movable stage configured to move along first and second slide movement axes relative to the imaging system, wherein the imaging system is configured to form an image of a sample mounted on a slide located in the/each imaging location on the movable stage during an image forming process that includes the movable stage moving relative to the imaging system along the first and second slide movement axes. The copy holder moving system also includes a copy holder configured to be mounted to the movable stage, wherein the copy holder is configured to be mounted to the movable stage in each of a plurality of indexing positions. | 2022-03-10 |
| 20220075175 | METHOD FOR SIM MICROSCOPY - A method for performing SIM microscopy on a sample, includes: generating n raw images of the sample, in each case by illuminating the sample using the same SIM illumination pattern albeit with an individual positioning for each raw image, wherein p orders of diffraction are assigned to the SIM illumination pattern, and generating an image of the sample from the n raw images. An image reconstruction is carried out using the orders of diffraction, wherein t highest orders of diffraction are suppressed during the image reconstruction and n=p−t applies. | 2022-03-10 |
| 20220075176 | MONITORING DEVICE, OPTICAL FILTER SYSTEM, MONITORING METHOD, AND CURRENT GENERATION DEVICE - Provided is a monitor device used with a Fabry-Perot interference filter having a pair of mirror parts and a pair of driving electrodes, and having a distance between the mirror parts changed in accordance with charges stored between the driving electrodes. The monitor device includes: a current application unit that applies an AC current having a frequency higher than a resonant frequency of the mirror parts across the driving electrodes; a voltage detection unit that detects a temporal development of a voltage generated between the driving electrodes during application of the AC current; a control unit that controls the AC current across the driving electrodes, based on an evaluation of a DC component of the voltage detected by the voltage detection unit; and a monitor unit that monitors the distance between the mirror parts based on an AC component of the voltage detected by the voltage detection unit. | 2022-03-10 |
| 20220075177 | COLOR WHEEL, LIGHT SOURCE SYSTEM AND DISPLAY DEVICE - Provided is a color wheel. The color wheel includes a substrate, a conversion layer disposed on the substrate for wavelength conversion of incident light and obtaining irradiated laser, a first filter layer for filtering the irradiated laser to obtain a first light for modulating an image in a first color gamut range, and a second filter layer for filtering the irradiated laser to obtain a second light for modulating an image in a second color gamut range. Planes, in which the light incident surface of the conversion layer, the light incident surface of the first filter layer and the light incident surface of the second filter layer are located respectively, are parallel or coincide with each other. | 2022-03-10 |
| 20220075178 | LIGHT REFLECTING ELEMENT AND SPATIAL LIGHT MODULATOR - Provided is a light reflecting element including a support portion, a hinge portion, and a light reflecting portion, in which the light reflecting portion includes a support layer and a light reflecting layer, the hinge portion includes a torsion bar portion, extending portions extending from side portions of the torsion bar portion, and movable pieces extending from end portions of the extending portions, an end portion of the torsion bar portion is fixed to the support portion, the hinge portion is twistedly deformable around an axis of the torsion bar portion, the support layer is fixed to the movable pieces, and a recessed portion is provided at least at a portion of the support layer facing a space located between the first movable piece and the second movable piece. | 2022-03-10 |
| 20220075179 | Instrument for Moving and Positioning of Optical Elements with Nanometric Mechanical Stabiling and Resolution in Synchrotron Light Source Beamlines - An instrument for moving and positioning of an optical element in beamlines comprises a mounting structure to which one (or more) optical element(s) is mounted, as well as a reference structure, in relation to which the mounting structure is moved by means of a moving means of low (or close to zero) mechanical stiffness and in relation to which the position of the mounting structure is metered by means of a high-resolution interferometer. The invention proposes that the instrument also comprises a balance mass for receiving the reaction force from the moving means of the mounting structure, and both the mounting structure and the balance mass are attached to the reference structure by spring means, with specific stiffness properties, allowing the positioning control of the mounting structure to be done by a control system with main feedback loop with high bandwidth (>100 Hz). In order to allow for a broader range of movement between the mounting structure and the reference structure, by means of a cascaded movement, the instrument may further comprise an intermediate structure attached to the reference structure, also preferably by spring means with specific stiffness properties, the complementary structure receiving the mounting structure and the balance mass in place of the reference structure. Such an instrument may be embodied in a new-generation synchrotron light source beamline mounted double-crystal monochromator, being sufficient for this that the spring means to be conveniently chosen, the reference structure to have a main rotation in relation to the incident beam, and in addition to the crystal mounted to the mounting structure, a complementary crystal to be mounted to the complementary mounting structure rigidly attached to the reference structure. | 2022-03-10 |
| 20220075180 | OPTICAL SCANNING DEVICE AND METHOD FOR MANUFACTURING THE SAME - An optical scanning device comprises a scanning structure, an anchor, and a drive unit. The drive unit includes a first drive unit and a second drive unit. The first drive unit includes a first drive beam, an electrode interconnect, paired supports, and a thin film magnet. The first drive beam has a first fixed end connected to the support and a first drive end connected to the scanning structure. The electrode interconnect is formed on the first drive beam. The supports are connected to the anchor and disposed to sandwich the first drive beam. The thin film magnet is disposed on each of the supports. The thin film magnet is disposed in such a manner that a magnetic line of force is generated in a direction intersecting a direction in which the electrode interconnect extends. | 2022-03-10 |
| 20220075181 | OPTICAL SCANNER AND ELECTROPHOTOGRAPHIC IMAGE FORMING APPARATUS - Optical scanner and electrophotographic image forming device are provided. The optical scanner includes a light source; and a first optical unit, a deflection apparatus, and an f-θ lens, which are sequentially arranged along a primary optical axis direction of a light beam emitted from the light source. The light beam emitted from the light source is focused onto a scanning target surface after sequentially passing through the first optical unit, the deflection apparatus, and the f-θ lens. Optical scanning directions of the light beam emitted from the light source include a primary scanning direction and a secondary scanning direction which are perpendicular to each other, and along the primary scanning direction, the f-θ lens satisfies following expressions: SAG1>0, SAG2>0, and 0<(SAG1+SAG2)/d<0.8. | 2022-03-10 |
| 20220075182 | OPTICAL SCANNER AND ELECTROPHOTOGRAPHIC IMAGE FORMING APPARATUS - Optical scanner and electrophotographic image forming apparatus are provided. The optical scanner includes a light source, configured to emit a light beam; an optical deflector, configured to deflect the light beam emitted from the light source; a first optical unit, arranged there-between and including a refraction unit and a diffraction unit; and a second optical unit, arranged in a light exit direction of the optical deflector and configured to make the light beam deflected by the optical deflector form an image on a scanning target surface. A range of a ratio of a refractive power Φ | 2022-03-10 |
| 20220075183 | METHOD AND APPARATUS WITH CROSSTALK CORRECTION - A processor-implemented method with crosstalk correction includes: determining a region in which a crosstalk is to occur based on a three-dimensional (3D) position relationship between a position of eyes of a user and a position of a virtual image of a virtual content object; generating a concealer image for correcting the region in which the crosstalk is to occur based on the determined region and the virtual content object; and correcting the crosstalk by combining the virtual content object and the generated concealer image. | 2022-03-10 |
| 20220075184 | IMAGE-CAPTURING DEVICE - An image-capturing device includes: a plurality of micro-lenses disposed in a two-dimensional pattern near a focal plane of an image forming optical system; an image sensor that includes a two-dimensional array of element groups each corresponding to one of the micro-lenses and made up with a plurality of photoelectric conversion elements which receive, via the micro-lenses light fluxes from a subject having passed through the photographic optical system and output image signals; and a synthesizing unit that combines the image signals output from the plurality of photoelectric conversion elements based upon information so as to generate synthetic image data in correspondence to a plurality of image forming areas present on a given image forming plane of the image forming optical system, the information specifying positions of the photoelectric conversion elements output image signals that are to be used for generating synthetic image data for each image forming area. | 2022-03-10 |
| 20220075185 | DEVICE FOR AUGMENTED REALITY OR VIRTUAL REALITY DISPLAY - A device is disclosed comprising a waveguide ( | 2022-03-10 |
| 20220075186 | Two Dimensional Optical Phased Arrays Using Edge-Coupled Integrated Circuits - An apparatus comprises: a first integrated circuit comprising: a plurality of sets of optical waveguides, each set of optical waveguides including a plurality of optical waveguide segments, and a plurality of optical emitter elements arranged over a first surface of the first integrated circuit, each optical emitter element coupled to a distal end of one of the optical waveguide segments; and a second integrated circuit comprising: a plurality of optical phase shifters that each provide a phase-shifted optical wave that is coupled to the first integrated circuit from a first edge surface of the second integrated circuit. The first edge surface of the second integrated circuit is in proximity to a row of proximal ends of the optical waveguide segments of a first set of the plurality of sets of optical waveguides. | 2022-03-10 |
| 20220075187 | METHOD FOR GENERATING AND DISPLAYING A VIRTUAL OBJECT BY AN OPTICAL SYSTEM - The invention relates to a method for generating and displaying a virtual object to an individual user by an optical system consisting of gaze-tracking glasses and at least one display unit connected to the gaze-tracking glasses, the display unit having a first display, the gaze-tracking glasses having a first eye-tracking camera, the first display being arranged in a first viewing region of the gaze-tracking glasses. According to the invention, the optical system is adapted to an individual user, a first target value for adaptation of a display control unit of the display unit for controlling the first display being determined, a current viewing direction of the first eye being determined by the gaze-tracking glasses, a virtual object being generated and, taking account of the first target value, the virtual object being displayed in the first display at a position in the determined viewing direction of the first eye. | 2022-03-10 |
| 20220075188 | THREE-DIMENSIONAL DISPLAY DEVICE, THREE-DIMENSIONAL DISPLAY SYSTEM, HEAD-UP DISPLAY, AND MOVABLE OBJECT - A three-dimensional display device includes a display panel, a barrier panel, and a controller that controls the display panel and the barrier panel. The controller defines multiple first image areas and multiple second image areas in the display panel, causes the first image areas to be at first intervals in a first direction, causes displaying of a first image viewable by a first eye of a user in the first image areas and a second image viewable by a second eye of the user in the second image areas, defines, in the barrier panel, multiple first transmissive areas transmissive to the image light at a first transmissivity and multiple second transmissive areas transmissive to the image light at a second transmissivity, causes the first transmissive areas to be at second intervals in the first direction, and performs an irregular process at third intervals in the first direction. | 2022-03-10 |
