18th week of 2021 patent applcation highlights part 48 |
Patent application number | Title | Published |
20210132251 | Machine Learning For Evaluating And Catergorizing Inversion Solutions - A method for selecting initial models or inversion solutions during an inversion process from electromagnetic measurements may comprise disposing an electromagnetic well measurement system into a wellbore, transmitting electromagnetic fields into a formation with the electromagnetic transmitter, measuring the electromagnetic fields with the electromagnetic receiver as measurements at a depth in the wellbore, forming initial models for the inversion process based on the measurements and performing an inversion, filtering an inversion solution, forming a solution database from the filtered inversion solutions, building a reference model, calculating a similarity between the reference model and one or more models in the solution database, selecting one or more results from the solution database with the similarity larger than a threshold, and generating a final inversion model image from the one or more results. An electromagnetic well measurement system may comprise an electromagnetic transmitter antenna, an electromagnetic receiver antenna, and an information handling system. | 2021-05-06 |
20210132252 | NEAR-FIELD SENSITIVITY OF FORMATION AND CEMENT POROSITY MEASUREMENTS WITH RADIAL RESOLUTION IN A BOREHOLE - A neutron porosity tool having an electronic neutron generator arrangement and a control mechanism used to provide voltage and pulses to an electronic neutron tube is provided, the neutron generator arrangement including: at least one vacuum tube; at least one ion target; at least one radio-frequency cavity; at least one high-voltage generator; at least two neutron detectors; at least one pulser circuit; and at least one control circuit. A method of controlling a neutron porosity tool having an electronic neutron generator arrangement and a control mechanism that provides voltage and pulses to an electronic neutron tube, the method including at least: controlling a bipolar neutron tube to produce two distinct neutron reactions; using a control circuit to modify the output of a pulser circuit; and using a plurality of neutron detectors to determine formation response offsets. | 2021-05-06 |
20210132253 | AUTOMATIC GEOLOGICAL FORMATIONS TOPS PICKING USING DYNAMIC TIME WARPING (DTW) - Systems and methods include a method for predicting geological formation tops. First well log data associated with a key master well is received. Formation data identifying tops of formations confirmed in the key master well is received. Merged key master well and formation data is generated in a dynamic time warping (DTW)-readable format by merging the first well log data with the formation data. Second well log data associated with a training well located in geographic proximity to the key master well is received. The second well log data is formatted into the DTW-readable format. A DTW function is executed to generate indices associated with the formation tops. The DTW function uses the merged key master well and formation data and the formatted second well log data as DTW function inputs. Predicted geological formation tops for the training well are predicted using the generated indexes. | 2021-05-06 |
20210132254 | SYSTEM AND METHOD FOR OPTICAL MEASUREMENTS IN A ROTARY MACHINE - A system is provided with a measurement system having a light source, a light sensor, and a controller coupled to the light source and the light sensor. The controller is configured to determine a clearance between a rotor and a casing at least partially based on an interruption of light transmitted from the light source to the light sensor. | 2021-05-06 |
20210132255 | High quality factor non-uniform metasurfaces - High quality factor electromagnetic metasurfaces are provided. The metasurface is configured to have in plane guided-mode resonances (e.g., corresponding to waveguide modes or the like). Coupling features are included in the metasurface that are configured to couple free-space radiation to the guided mode resonances. The resulting structures have a high-Q response to free-space radiation and can be used for various applications, such as beam splitting, beam steering, and beam focusing or defocusing. | 2021-05-06 |
20210132256 | LENS ASSEMBLY AND ELECTRONIC DEVICE INCLUDING THE SAME - Provided is a lens assembly including a first lens having positive optical power with respect to incident light incident from an object side and having a convex surface facing the object side, and a second lens including a meta-lens having negative chromatic aberration with respect to the incident light passing through the first lens. | 2021-05-06 |
20210132257 | LAMINATE, ANTI-REFLECTION STRUCTURE AND CAMERA MODULE MOUNTING APPARATUS - Provided is a laminate and an anti-reflection structure that can be thinned, are excellent in anti-reflection performance and can keep reflection chromaticity neutral. | 2021-05-06 |
20210132258 | CAMERA PROTECTION DEVICE AND MOBILE PHONE PROTECTION JACKET - Disclosed are a camera protection device and a mobile phone protection jacket. The camera protection device includes: a first sheet body having a first hole structure configured for cooperation with a camera of a mobile phone and a second hole structure configured for cooperation with a flash lamp of the mobile phone, and a light shielding structure formed integrally or separately with the first sheet body, the light shielding structure being arranged between the flash lamp and a lens protection film of the camera. The mobile phone protection jacket is provided with the camera protection device according to any implementation in the first aspect. | 2021-05-06 |
20210132259 | DISPLAY DEVICE - The present invention provides a display device. By setting opposite surfaces of the substrate and the hard coat layer of the glass cover plate as uneven structures, not only flatness of the glass cover plate can be ensured, but also stress can be dispersed under point impact. Meanwhile, upper and lower sides of the protection layer are provided with uneven structures at the same time, such that the stress can also be diffused, and the buffer layer is formed by flattening the upper and lower sides of the protection layer to make the entire buffer layer smoother. The display device of the present invention can increase resistance to point impacts and reduce local injuries. | 2021-05-06 |
20210132260 | LENTICULAR LABEL FOR A MEDICAL DEVICE - A lenticular label for attachment to a surface of a medical device to be used in a pre-set orientation is disclosed. The lenticular label has a first face with a lens structure and a second face including a lenticular graphic resulting from a composition of a plurality of images. The images are aligned with the lens structure so that a different visual impression is obtained by changing a viewing angle from which the lenticular graphic is viewed with respect to the first face. The plurality of images includes a compliance image. The lens structure is arranged such that the compliance image is visible by a user when the lenticular label is attached to the medical device and the medical device is in the pre-set orientation. A medical device with such a lenticular label, and methods of use thereof are also disclosed. | 2021-05-06 |
20210132261 | OPTICAL LENS STRUCTURE, METHOD FOR MANUFACTURING THE SAME, AND DISPLAY APPARATUS - The disclosure provides an optical lens structure, a method for manufacturing the same, and a display apparatus. The optical lens structure includes a substrate layer; and a plurality of optical lenses on the substrate layer. The optical lens includes a color resist material; the optical lenses are arranged in an array, and color resist materials of adjacent optical lenses have different colors from each other. | 2021-05-06 |
20210132262 | MICRO-LENS ARRAY, PROJECTION TYPE IMAGE DISPLAY DEVICE, METHOD FOR DESIGNING MICRO-LENS ARRAY, AND METHOD FOR MANUFACTURING MICRO-LENS ARRAY - The micro-lens array is a micro-lens array in which a plurality of micro-lenses are arranged in a matrix in a plan view, wherein each of the plurality of micro-lenses has four main sides in a plan view, and each of the four main sides is inclined with respect to a row virtual line parallel to a row direction or a column virtual line parallel to a column direction. | 2021-05-06 |
20210132263 | LIGHT EMITTING DEVICE WITH SELF-ALIGNING PREFORMED LENS - A light emitting diode (LED) light source is disclosed. The LED light source comprises a lens structure that includes a hemispherical dome with a base. The LED light source comprises a cavity in the base. The cavity has an opening and a taper such that a cross-section area within the cavity is smaller than an area of the opening. The LED light source comprises a light emitting device comprising an LED die contacting the taper. The taper allows for easy insertion of the LED die into the lens structure. The taper serves to accurately align the LED die when the LED die is inserted. | 2021-05-06 |
20210132264 | CAMERA MODULE COMPRISING LIQUID LENS AND OPTICAL DEVICE INCLUDING THE SAME - An embodiment provides a camera module including a liquid lens including an electrode; and a holder in which the liquid lens is disposed, wherein the holder includes a first body portion including a first hole formed therein; a second body portion spaced apart from the first body portion, the second body portion including a second hole formed therein so as to correspond to the first hole; and a side portion connecting the first body portion and the second body portion to each other, wherein the second body portion includes a support portion supporting the liquid lens and an extension portion extending from the support portion, and wherein the support portion includes a side surface, an upper surface, and a step formed between the side surface and the upper surface. | 2021-05-06 |
20210132265 | LENS DEVICE, DISPLAY DEVICE AND CONTROL METHOD - Provided is a lens device, including a plurality of lens units arranged in an array, wherein the lens unit includes an accommodating cavity, a lens, a magnetic body, and a magnetic field generating member; the lens and the magnetic body are located inside the accommodating cavity, the magnetic field generating member is configured to provide a magnetic field, and the magnetic body is configured to move the lens in a direction perpendicular to an arrangement plane of the plurality of lens units under an action of the magnetic field provided by the magnetic field generating member. A display device and a control method is also provided. | 2021-05-06 |
20210132266 | FLUID LENS WITH REDUCED BUBBLE FORMATION - Disclosed devices may include a fluid lens that includes a membrane, optionally a substrate, and a fluid located within an enclosure that may be at least partially defined by the substrate and the membrane. A coating may be disposed on at least a portion of the interior surface of the enclosure. The coating may have a coating surface in contact with the fluid. The coating may significantly reduce bubble formation within the fluid (e.g., compared with an uncoated surface). Example devices include adjustable fluid lenses that may be adjusted to a plano-concave configuration. Various other methods, systems, and computer-readable media are also disclosed. | 2021-05-06 |
20210132267 | FLUID LENS WITH LOW GAS CONTENT FLUID - An example device includes a fluid lens, where the fluid lens includes a membrane, a substrate, and a fluid located within an enclosure formed at least in part by the membrane and the substrate. The membrane may be an elastic membrane. The fluid may include an amount of an additive that is effective to appreciably reduce bubble formation within the fluid, such as when a negative pressure is applied to the fluid. In some examples, the additive may include particles, such as nanoparticles. The additive may include a thixotropic agent that helps to impart an appreciable thixotropic property to the fluid. Various other methods, systems, and computer-readable media are also disclosed. | 2021-05-06 |
20210132268 | LAMINATE AND LIGHT DIFFUSION CONTROL FILM - A laminate used under an environment irradiated with external light includes a light diffusion control film having an internal structure in the film. The internal structure includes a plurality of regions having a relatively high refractive index in a region having a relatively low refractive index. The laminate further includes an ultraviolet absorbing layer located further on the external light incident side than the light diffusion control film. The light diffusion control film contains a hindered amine-based compound. | 2021-05-06 |
20210132269 | REFLECTIVE OPTICAL ELEMENT - Reflective optical element with extended service life for VUV wavelengths includes a substrate ( | 2021-05-06 |
20210132270 | COMPACT OPTICAL DEVICE FOR AUGMENTED REALITY - Disclosed herein is a compact optical device for augmented reality. The compact optical device includes: an optical means configured to transmit at least part of image light, output from a real object, therethrough toward a pupil of an eye of a user and to reflect image light corresponding to an image for augmented reality, output from an image output unit, on an inner surface thereof and transfer the image light corresponding to an image for augmented reality to a first reflective unit; a first reflective unit disposed inside the optical means, and configured to reflect the image light corresponding to the image for augmented reality transferred from the inner surface of the optical means by reflection and transfer the image light corresponding to the image for augmented reality to a second reflective unit; and a second reflective unit disposed inside the optical means, and configured to reflect the image light corresponding to the image for augmented reality, transferred from the first reflective unit, and transfer the image light corresponding to an image for augmented reality toward the pupil of the eye of the user, thereby providing the image for augmented reality to the user; wherein the second reflective unit has a size smaller than 8 mm. | 2021-05-06 |
20210132271 | TRANSFER SHEET, COLOR DEVELOPING SHEET, COLOR DEVELOPING ARTICLE, AND TRANSFER METHOD - A transfer sheet includes: a peelable substrate; a resin layer that is in contact with the peelable substrate so as to be peelable and has an uneven structure on a surface opposite to a surface in contact with the peelable substrate; a thin film layer that is located on the uneven structure and has a surface shape following the uneven structure and from which reflected light enhanced by interference emerges; a low transmission layer that is located on a side of the thin film layer opposite to the resin layer and has a lower transmittance for light in a visible range than the thin film layer; and an adhesive layer that is located on a side of the low transmission layer. | 2021-05-06 |
20210132272 | ULTRA-COMPACT, ABERRATION CORRECTED, VISIBLE CHIRAL SPECTROMETER WITH META-LENSES - An optical device includes: (1) a substrate; and (2) multiple meta-lenses disposed on the substrate, each meta-lens of the meta-lenses including multiple nanofins disposed on a respective region of the substrate, the nanofins together specifying a phase profile of the meta-lens. | 2021-05-06 |
20210132273 | OPTICAL MEMBER - An optical member includes a transparent substrate containing at least one substance selected from glass, a glass ceramic, silicon, and sapphire, and having an infrared high-transmittance region in which an optical transmittance is 78% or more in a wavelength band of 700 nm to 1800 nm; and an optical interference film disposed on a main surface of the transparent substrate corresponding to the infrared high-transmittance region, wherein a transmittance of light, of the optical member, of at least one wavelength λ | 2021-05-06 |
20210132274 | CURABLE RESIN COMPOSITION FOR POLARIZING FILMS, POLARIZING FILM AND METHOD FOR PRODUCING SAME - A curable resin composition for polarizing films, comprising an active-energy-ray-curable component (A) and a compound (B) having a formyl group, and having a content of the compound (B) having a formyl group that is from 1 to 900 ppm. | 2021-05-06 |
20210132275 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A display device includes a display module that is folded with respect to a folding axis extending in a first direction, a polarization layer disposed on the display module and having a polarization axis parallel to the first direction, and a phase delay layer disposed on the polarization layer and configured to change linearly polarized light, which passes through the polarization layer, into circularly polarized light. | 2021-05-06 |
20210132276 | POLYMER INFRARED POLARIZER - A polymer infrared polarizer ( | 2021-05-06 |
20210132277 | POLARIZER, METHOD FOR MANUFACTURING SAME, AND DISPLAY DEVICE - Disclosed are a polarizer, a method for manufacturing the same, and a display device. The polarizer includes an optical retardation layer and a linear polarization layer which are laminated, wherein the optical retardation layer includes at least two types of retardation regions for performing phase retardation on incident light, a phase retardation amount of each type of retardation region including a quarter of a wavelength of light of one color, and the phase retardation amounts of the at least two types of retardation regions including quarters of wavelengths of light of at least two different colors. The present disclosure is favorable to improving the color cast of the display device. | 2021-05-06 |
20210132278 | OPTICAL FILM, POLARIZING PLATE INCLUDING SAME, AND DISPLAY DEVICE INCLUDING SAME - Provided are an optical film, a polarizing plate including same, and a display device including same, the optical film comprising a first layer and second and third layers sequentially formed on the first layer, wherein the first layer and the third layer are each formed directly on the second layer, the first layer is a reverse wavelength dispersive negative A layer, the third layer is a positive C layer, and the ratio of the thickness of the second layer to the thickness of the third layer (the thickness of the second layer/the thickness of the third layer) is about 0.2 to about 2. | 2021-05-06 |
20210132279 | DISPLAY DEVICE - According to one embodiment, a display device includes a first transparent substrate, a second transparent substrate, a liquid crystal layer, light-emitting elements disposed in a first direction, a third transparent substrate including a main surface and a side surface opposed to the light-emitting elements, and a transparent layer disposed on the main surface and having a lower refractive index than the third transparent substrate. The third transparent substrate is bonded to the first transparent substrate or the second transparent substrate with the transparent layer sandwiched in between. The transparent layer includes strip portions disposed in the first direction and extended along a second direction. | 2021-05-06 |
20210132280 | ILLUMINATION DEVICE FOR COOKING APPARATUS - An illumination device for a cooking apparatus, the illumination device including a light source; and a light conductor rod that transmits light emitted by the light source to a cooking cavity, wherein the light conductor rod is a rigid light conductor rod that is configured to penetrate an opening in a cooking cavity wall, wherein an angled end of the light conductor rod that is oriented away from the light source is angled relative to a longitudinal axis of the light conductor rod at an angle so that light exiting from the angled end is introducible into the cooking cavity at an angle relative to the longitudinal axis of the light conductor rod. | 2021-05-06 |
20210132281 | POLYCHROMATIC GRATING-COUPLED MULTIBEAM DIFFRACTION GRATING BACKLIGHT, DISPLAY AND METHOD - Polychromatic backlighting employs a grating coupler to diffractively split and redirect collimated light coupled into a light guide. A polychromatic grating-coupled backlight includes a light guide configured to guide light and a light source to provide collimated polychromatic light. The polychromatic grating-coupled backlight further includes the grating coupler diffractively split and redirect to provide a plurality of light beams. Each light beam of the plurality represents a respective different color of the polychromatic light and is configured to propagate within the light guide as guided light at a color-specific, non-zero propagation angle corresponding to the respective different color of polychromatic light. An electronic display includes the polychromatic grating-coupled backlight and further includes a diffraction grating to diffractively couple out a portion of the guided light and a light valve array to modulate the coupled-out light as an electronic display pixel. | 2021-05-06 |
20210132282 | BACKLIGHT MODULE AND DISPLAY DEVICE - Provided is a backlight module and a display device. The backlight module includes a first optical structure provided in the first region of the light entering surface of the light guide plate and a plurality of second regions each located between two adjacent first regions. The first optical structure is configured to enable a part of light emitted by a corresponding light source to enter an inside of the light guide plate and reflect a part of light to the lamp bar. The second optical structure is configured to reflect light reaching the second optical structure back to the light entering surface of the light guide plate. | 2021-05-06 |
20210132283 | LUMINAIRES UTILIZING WAVEGUIDES WITH EXTRACTION FEATURE PATTERNS - According to an aspect of the present disclosure, a luminaire comprises a plurality of waveguides, a light source arranged to direct light into the plurality of waveguides, and a plurality of extraction feature patterns. The luminaire contemplated by the present disclosure is arranged with the plurality of waveguides are aligned such that an extraction feature pattern extracts light out of a first waveguide of the plurality of waveguides and a second extraction feature pattern extracts light out of a second waveguide of the plurality of waveguides. Further, in accordance with this aspect, the light extracted out of the first waveguide is directed through the second waveguide to develop an appearance of depth. | 2021-05-06 |
20210132284 | LIGHT GUIDE PLATE, BACKLIGHT MODULE AND DISPLAY DEVICE - A light guide plate, a backlight module and a display device are disclosed. The light guide plate includes: a first optical path control layer, a second optical path control layer, and a light guide layer that are sequentially stacked. A plurality of prism structures are provided on a side of the first optical path control layer distal to the second optical path control layer. The first optical path control layer, the second optical path control layer, and the light guide layer all extend in a first direction. The first optical path control layer is configured to deflect the light that enters the first optical path control layer from the light guide layer through the second optical path control layer, so that the deflected light passes through the second optical path control layer and is emitted from the light exit surface of the light guide layer. | 2021-05-06 |
20210132285 | LIGHTING DEVICE AND DISPLAY DEVICE - A lighting device includes a first light source a first light guide plate having a first light entrance surface and a first light outgoing surface and including a first high luminance light outgoing region through which a large amount of light rays exit and a first low luminance light outgoing region through which a small amount of light rays exit, a first reflection member, a second light source, a second light guide plate overlapping the first light guide plate and haying a second light entrance surface and a second light outgoing surface and including a second high luminance light outgoing region overlapping the first low luminance light outgoing region and through which a large amount of light rays exit and a second low luminance light outgoing region overlapping the first high luminance light outgoing region and through which a small amount of light rays exit, and a second reflection member. | 2021-05-06 |
20210132286 | HEAD-MOUNTED DISPLAY - [Problem] To propose a head-mounted display capable of restraining deformation or breakage of a connection member caused by concentration of an external force on the connection member. [Solution] A head-mounted display includes a frame worn on the head of a viewer and having a front part disposed in front of the viewer, and an image display device connected to a central part of the front part. The image display device includes two right and left optical modules each including an image generation device and a light guide member that is connected to the image generation device and is disposed closer as a whole to a center of the face of the viewer than the image generation device, and includes a connection member connecting the image display device to the front part. A part of the image display device is disposed so as to face a part of the front part in a front-rear direction with a predetermined gap interposed therebetween. | 2021-05-06 |
20210132287 | ILLUMINATION DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - According to one embodiment, an illumination device includes a light source disposed along a first direction, a light guide plate including a first end and a second end, the second end being positioned to be opposite to the first end in a second direction which crosses the first direction, a frame disposed along the second end and including an inner surface and an upper surface, and an adhesion member disposed on at least the upper surface of the frame, wherein the light source is disposed at the first end along the first direction, at least the inner surface of the frame is a light absorbing surface, and the adhesion member is light transmissive. | 2021-05-06 |
20210132288 | LASER SYSTEMS UTILIZING CELLULAR-CORE OPTICAL FIBERS FOR BEAM SHAPING - In various embodiments, the beam parameter product and/or beam shape of a laser beam is adjusted by directing the laser beam across a path along the input end of a cellular-core optical fiber. The beam emitted at the output end of the cellular-core optical fiber may be utilized to process a workpiece. | 2021-05-06 |
20210132289 | OPTICAL FIBERS WITH THIN COATINGS - An optical fiber includes an outer diameter less than 220 μm, a glass fiber that includes a glass core and a glass cladding, a primary coating, and a secondary coating. The glass cladding surrounds and is in direct contact with the glass core. The primary coating surrounds and is in direct contact with the glass fiber. The primary coating can have a Young's modulus less than 0.5 MPa and a thickness less than 30.0 μm. The secondary coating surrounds and is in direct contact with the primary coating. The secondary coating can have a thickness less than 27.5 μm. A pullout force of the optical fiber can be less than a predetermined threshold when in an as-drawn state. The pullout force may increase by less than a factor of 2.0 upon aging the primary and secondary coatings on the glass fiber for at least 60 days. | 2021-05-06 |
20210132290 | ULTRA REDUCED DIAMETER OPTICAL FIBRE - An optical fibre includes a glass core, a glass cladding, a primary coating layer and a secondary coating layer. The glass cladding surrounds the glass core. The glass cladding has a cladding refractive index. The primary coating layer is sandwiched between the glass cladding and the secondary coating layer. The primary coating layer may have one of a primary in-situ modulus in the range of 0.1 to 0.2 mega pascal and a primary coating thickness in the range of 2.5 micrometers to 10 micrometers. The secondary coating layer may have one or more of the secondary in-situ modulus greater than or equal to 1.2 giga pascal and the secondary coating thickness in a range of 2.5 to 17.5 micrometers. | 2021-05-06 |
20210132291 | OPTICAL FIBER - An optical fiber according to an embodiment includes a core and a cladding. The average value n1_ave of the refractive index of the core, the minimum value nc_min of the refractive index of the cladding, and the refractive index n0 of pure silica glass satisfy relationships of n1_ave>nc_min and nc_min2021-05-06 | |
20210132292 | WAVEGUIDE-BASED LIGHT SOURCES WITH DYNAMIC BEAM SHAPING - Luminaires are described herein employing waveguides and associated architectures for dynamic alteration of illuminance distribution patterns. The waveguide includes a light extraction component. The waveguide transmits light from a light source to the light extraction component by total internal reflection (TIR). The light extraction component includes one or more reversibly moveable surfaces for altering illuminance distribution patterns of the luminaire in response to one or more forces applied to the light extraction component by a force application assembly of the luminaire. | 2021-05-06 |
20210132293 | FIBER ARRAY UNITS WITH MODE-FIELD DIAMETER CONVERSION, AND FABRICATION METHOD - A fiber array unit (FAU) includes a substrate, a cover element, and a plurality of optical fibers each including a splice joint connecting fibers of different mode-field diameters with a recoating material arranged over at least a portion of the fibers overlapping the substrate, wherein stripped portions of the fibers are arranged in grooves between the substrate and the cover element. A method for fabricating a compact FAU includes splicing ends of stripped sections of first and second optical fiber segments of different mode-field diameters, applying a recoating material over at least portions of the stripped sections, positioning portions of stripped sections of the second optical fiber segments in grooves defined in a substrate, and arranging a cover over the grooves. Certain embodiments include stripping recoating material portions of the second optical fiber segments before they are placed in the grooves. | 2021-05-06 |
20210132294 | ATHERMALIZED MULTI-PATH INTERFERENCE FILTER - A multi-path interference filter. The multi-path interference filter includes a first port waveguide, a second port waveguide, and an optical structure connecting the first port waveguide and the second port waveguide. The optical structure has a first optical path from the first port waveguide to the second port waveguide, and a second optical path, different from the first optical path, from the first port waveguide to the second port waveguide. The first optical path has a portion, having a first length, within hydrogenated amorphous silicon. The second optical path has a portion, having a second length, within crystalline silicon, and the second optical path has either no portion within hydrogenated amorphous silicon, or a portion, having a third length, within hydrogenated amorphous silicon, the third length being less than the first length. | 2021-05-06 |
20210132295 | MULTICORE FIBERS - A fiber-optic system for use in optical sensing includes a multicore sensing fiber having at least two cores of which each of the at least two cores has a first core diameter, and a multicore lead-in fiber having at least two cores including a position corresponding with the position of the at least two cores of the multicore sensing fiber. Each of the at least two cores of the multicore lead-in fiber have a second core diameter. The second core diameter is substantially larger than the first core diameter. The system further includes an alignment means for aligning the multicore sensing fiber and the multicore lead-in fiber so that the lead-in fiber and the multicore sensing fiber are configured for coupling radiation between the fibers through the cores. | 2021-05-06 |
20210132296 | OPTICAL CONNECTION COMPONENT - An optical connection component includes optical fibers; one or a plurality of line members arranged in parallel with the optical fibers, line members having a lower elastic limit and being easier to undergo plastic deformation at room temperature than the optical fibers; a first securing member as a block having a plurality of capillaries extending parallel to one another or as a combination of a V-grooved board and a flat board, the V-grooved board having a plurality of V-grooves extending parallel to one another, the first securing member securing one-end portions of the optical fibers and one-end portions of the one or plurality of line members individually in the plurality of capillaries or in the plurality of V-grooves; and a second securing member that secures the optical fibers and the one or plurality of line members on a side near other-end portions of the one or plurality of line members. | 2021-05-06 |
20210132297 | DUAL SPRING MULTI-FIBER OPTIC CONNECTOR - A fiber optic connector having a set of opposing pins set in a recess configured to accept a corresponding spring therein. The springs are placed on either side of the fiber optic cable bundle and secured within a pinkeep. The dual or outer springs help prevent rotation of the ferrule assembly during use. | 2021-05-06 |
20210132298 | SNAP-ON DUST CAP FOR FIBER OPTIC CONNECTOR - A dust cap includes a cap body and a pair of opposing latches. The cap body is adapted to cover a connectorized end of a fiber optic connector and cable assembly when the connectorized end is inserted through an opening of an interior of the cap body. The cap body further includes an opposing pair of resilient walls. The pair of opposing latches each include latching features that extend outside of the interior of the cap body. The pair of opposing latches each further include a mounting portion mounted to a respective one of the opposing pair of resilient walls. The dust cap may further include a pulling interface. The pulling interface may be adapted to attach to a pulling member and may be positioned at a tapered nose of the cap body. The dust cap may thereby be a cable pulling cap and may pull a fiber optic connector and cable assembly through conduits and other narrow passages. A pair of opposing pulling halves may enclose the cable pulling cap or the dust cap without a pulling interface and at least a portion of the connectorized end of the fiber optic connector and cable assembly. | 2021-05-06 |
20210132299 | CLEANING TOOL AND ADHESIVE BODY - A cleaning tool that cleans an optical connector includes an adhesive body that contacts an optical signal region of the optical connector where an optical signal enters and is emitted from the optical connector; and a base that holds the adhesive body. The base includes a first protrusion on a holding surface of a holding part that holds the adhesive body. The first protrusion is disposed at a rear side of a section of the adhesive body and is in contact with the optical signal region. | 2021-05-06 |
20210132300 | FIBER OPTIC CONNECTORS HAVING AN INTERNAL COMPLIANT MEMBER TO COMPENSATE FOR TOLERANCE STACK-UP OF COMPONENTS - Fiber optic connectors are disclosed that may compensate for the tolerance stack-up of components. The fiber optic connector comprises a connector assembly, a body for securing a portion of the connector assembly, an internal compliant member, a connector sleeve assembly, a balancing resilient member, and a housing. The internal compliant member is disposed about a portion of the body and may compensate for tolerance stack-up of components when the fiber optic connector is assembled. The connector assembly comprises a ferrule and a resilient member for biasing the ferrule forward and the connector sleeve assembly comprises a housing and a ferrule sleeve. When assembled, the connector assembly is at least partially disposed in the passageway of the housing and the ferrule of the connector assembly is at least partially disposed in the ferrule sleeve. The balancing resilient member biases the housing of the connector sleeve assembly to a forward position. | 2021-05-06 |
20210132301 | CONNECTORIZED FIBER OPTIC CABLING ASSEMBLY - A connectorized fiber optic cabling assembly includes a loose tube fiber optic cable and a connector assembly. The cable has a termination end and includes an optical fiber bundle including a plurality of optical fibers, at least one strength member, and a jacket surrounding the optical fiber bundle and the strength member. The connector assembly includes a rigid portion and defines a fiber passage. The connector assembly is mounted on the termination end of the cable such that the optical fiber bundle extends through at least a portion of the fiber passage. The plurality of optical fibers undergo a transition from a ribbonized configuration to a loose, non-ribbonized configuration in the rigid portion of the connector assembly. | 2021-05-06 |
20210132302 | LC TYPE CONNECTOR WITH PUSH/PULL ASSEMBLY FOR RELEASING CONNECTOR FROM A RECEPTACLE USING A CABLE BOOT - A LC type connector assembly with a push/pull cable boot integrally formed with a protrusion that accepts an adapter release for releasing a fiber optic connector from an adapter port. | 2021-05-06 |
20210132303 | FERRULE, OPTICAL-FIBER-EQUIPPED FERRULE, AND METHOD FOR MANUFACTURING FERRULE - A ferrule with fiber holes includes: a resin-molded portion molded by a resin; and a reinforcement member embedded in the resin-molded portion and that has a smaller linear expansion coefficient than the resin-molded portion. The reinforcement member includes fiber insertion portions that are parallel to the fiber holes. The fiber holes are formed by the resin that entered the fiber insertion portions. | 2021-05-06 |
20210132304 | OPTICAL COUPLING APPARATUS, METHOD FOR PACKAGING OPTICAL COUPLING APPARATUS, OPTICAL MODULE, AND COMMUNICATIONS DEVICE - Embodiments provide an optical coupling apparatus, an optical module, and a communications device. In those embodiments, the optical coupling apparatus includes: an optical fiber component, including a plurality of optical fibers and an optical fiber fixing block. The plurality of optical fibers are fixed to the optical fiber fixing block. A first end face is disposed on the optical fiber fixing block. At least some of the optical fibers include plug ends which protrude from the first end face. An optical write waveguide block, including a main body and a plurality of waveguides disposed in the main body. A second end face is disposed on the main body, coupling holes that are in a one-to-one correspondence with the plug ends are disposed on the second end face in a recessed manner, and the coupling holes are formed when ends of the waveguides are recessed from the second end face. | 2021-05-06 |
20210132305 | OPTICAL SUBASSEMBLY - Provided is an optical subassembly, which is compact, is easy to manufacture, and has satisfactory high-frequency characteristics. The optical subassembly includes: an eyelet including a first surface, a second surface and a plurality of through-holes; a plurality of lead terminals; a relay substrate including a lead connection surface and a first bonding surface and having first and second conductor patterns formed across the lead connection surface and the first bonding surface; a device mounting unit including a second bonding surface having formed thereon third and fourth conductor patterns; and an optical device configured to convert one of an optical signal and the differential electrical signals into the other. The first and second conductor patterns on the first bonding surface are connected to the third and fourth conductor patterns by bonding wires, respectively, and the first and second bonding surfaces have normal directions in the same direction. | 2021-05-06 |
20210132306 | SHALLOW-PROFILE OPTICAL ELEMENTS FOR PHOTONICS RECEIVERS - An optical system can include a optical receiver comprising an optical waveguide, an optical lid adjacent the waveguide, and a reflective surface proximate an output of the optical waveguide to direct light from the waveguide towards an output of the optical lid. The optical system can also include a photodetector (PD) die comprising a substrate, a concave mirror, and a photodetector. The concave mirror is formed on a first side of the substrate and the photodetector is disposed on a second side of the substrate, the first side opposite the second side, wherein the photodetector is disposed on the second side of the PD die offset from the optical axis of the optical element. | 2021-05-06 |
20210132307 | Electro-Optical Circuit Comprising An Optical Transmission Path, Electro-Optical Assembly For Installation In Such An Electro-Optical Circuit And Method For Producing An Optical Interface Of An Electro-Optical Circuit - Various embodiments include an electro-optical circuit with an optical transmission path comprising: an electro-optical assembly having an optical transmitter element and/or an optical receiver element mounted on a mounting surface of a carrier component; a circuit carrier with a mounting side and an embedded optical waveguide exposed with an end face in a cutout in the mounting side; and an optical interface between the electro-optical assembly and the optical waveguide. The optical transmitter element and/or the optical receiver element is mounted on the carrier component with an alignment of its respective optical axis parallel to the mounting surface. The optical assembly is mounted on the circuit carrier with the mounting surface facing toward the mounting side. The optical transmitter element and/or the optical receiver element projects into the cutout and forms an optical axis with the exposed optical waveguide. | 2021-05-06 |
20210132308 | OPTICAL BENCH SUBASSEMBLY HAVING INTEGRATED PHOTONIC DEVICE - An optical bench subassembly including an integrated photonic device. Optical alignment of the photonic device with the optical bench can be performed outside of an optoelectronic package assembly before attaching thereto. The photonic device is attached to a base of the optical bench, with its optical input/output in optical alignment with the optical output/input of the optical bench. The optical bench supports an array of optical fibers in precise relationship to a structured reflective surface. The photonic device is mounted on a submount to be attached to the optical bench. The photonic device may be actively or passively aligned with the optical bench. After achieving optical alignment, the submount of the photonic device is fixedly attached to the base of the optical bench. The optical bench subassembly may be structured to be hermetically sealed as a hermetic feedthrough, to be hermetically attached to a hermetic optoelectronic package. | 2021-05-06 |
20210132309 | Vertical Integrated Photonics Chiplet for In-Package Optical Interconnect - A vertical integrated photonics chiplet assembly includes a package substrate and an external device connected to a top surface of the package substrate. A photonics chip is disposed within the package substrate. The photonics chip includes optical coupling devices positioned at a top surface of the photonics chip. A plurality of conductive via structures are disposed within the package substrate in electrical connection with electrical circuits within the photonics chip. The plurality of conductive via structures are electrically connected through the package substrate to the external device. An opening is formed through the top surface of the substrate to expose a portion of the top surface of the photonics chip at which the optical coupling devices are positioned. An optical fiber array is disposed and secured within the opening such that a plurality of optical fibers of the optical fiber array optically couple to the optical coupling devices. | 2021-05-06 |
20210132310 | Optical Transceiver and Manufacturing Method Thereof - A structure including a photonic integrated circuit die, an electric integrated circuit die, a semiconductor dam, and an insulating encapsulant is provided. The photonic integrated circuit die includes an optical input/output portion and a groove located in proximity of the optical input/output portion, wherein the groove is adapted for lateral insertion of at least one optical fiber. The electric integrated circuit die is disposed over and electrically connected to the photonic integrated circuit die. The semiconductor dam is disposed over the photonic integrated circuit die. The insulating encapsulant is disposed over the photonic integrated circuit die and laterally encapsulates the electric integrated circuit die and the semiconductor dam. | 2021-05-06 |
20210132311 | Cooling multiple high-density network pluggable optical modules using a shared heat exchanger - A module for multiple network pluggable optics is disclosed. The module includes a faceplate, a plurality of cage assemblies, and a plurality of springs. The faceplate includes a front face, a first wall extending from the front face, the first wall including a heat exchanger, and a second wall extending from the front face, the second wall being offset from the first wall. The plurality of cage assemblies is positioned at least partially within a volume defined by the front face and the first and second walls. Each cage assembly is configured to receive a pluggable optical module. The plurality of springs are configured with one or more springs positioned between each cage assembly and the second wall to push the plurality of cage assemblies towards the first wall such that each pluggable optical module received into one of the plurality of cage assemblies is pressed against the heat exchanger. | 2021-05-06 |
20210132312 | CONNECTOR AND CONNECTOR ASSEMBLY - Related to is the technical field of connectors and disclosed are a connector and a connector assembly. The connector includes a connector body and a heatsink, where an upper surface of the connector body is provided with a buckle; the heatsink is disposed on the upper surface of the connector body, and the heatsink is provided with multiple heatsink clips spaced apart from each other and arranged side by side and is clamped to the connector body through the buckle. The connector assembly includes the connector described above and a docking connector plug-in fitted with the connector. A large amount of heat generated by the connector in use is quickly dissipated into the air through the heatsink so that the connector can be prevented from being burnt or even burnt out due to the high temperature. | 2021-05-06 |
20210132313 | SHIELD CAGE ASSEMBLY - A shield cage assembly of the present disclosure comprises a metal shield shell and a heat dissipating module. The metal shield shell comprises a plurality of walls and an accommodating space defined by the plurality of walls, and the accommodating space has a front end port. The heat dissipating module is assembled to one of the walls of the metal shield shell, and the metal shield shell further includes side walls respectively positioned at two sides of the wall to which the heat dissipating module is assembled. The heat dissipating module further includes a frame and a first heat dissipating member, the frame having a frame body formed at a central portion of the frame to receive the first heat dissipating member and two side plates which extend from two side edges of the frame and which are parallel to the side walls. | 2021-05-06 |
20210132314 | OPTICAL FIBER CABLE, AND DEVICE AND METHOD FOR MANUFACTURING OPTICAL FIBER CABLE - An intermittent tape core wire ( | 2021-05-06 |
20210132315 | OPTICAL COMMUNICATION CABLE - An optical communication cable is provided having a cable body with an inner surface defining a passage within the cable body and a plurality of core elements within the passage. A film surrounds the plurality of core elements, wherein the film directs a radial force inward onto the plurality of core elements to restrain and hold the plurality of core elements in place. | 2021-05-06 |
20210132316 | CABLE ORGANIZER FOR FIBER OPTIC CABLES - A cable organizer for fiber optic cables includes a support structure, and a groove plate mounted to the support structure. The groove plate has an access groove for managing fiber optic cables on the groove plate. Fiber optic trays are pivotally mounted to the groove plate, and each fiber optic tray is configured to manage an optical fiber from the fiber optic cables. The access groove is at an angle relative to the fiber optic trays to provide a side access to the fiber optic cables. | 2021-05-06 |
20210132317 | OPTICAL FIBER CABLE FANOUT ARRANGEMENTS, COMPONENTS, AND METHODS - A fiber fanout assembly is provided with one or more endcaps, an epoxy fill hole, and air vent holes. A mold can be used with endcaps to create an epoxy body without an external housing structure. External housing structures can also be provided with one or more endcaps. Air vent holes can be provided in the endcaps. An epoxy fill hole can be provided in an endcap. An epoxy fill hole can also be provided adjacent to a fiber breakout end of the fiber fanout housing. | 2021-05-06 |
20210132318 | Adjustable Optical Lens and Camera Module and Manufacturing Method Thereof - An adjustable optical lens and camera module and manufacturing method thereof are provided, wherein the camera module includes an optical sensor and an adjustable optical lens. The adjustable optical lens, which is arranged in a photosensitive path of the optical sensor, includes an optical structural member and at least two lenses. Each of the lens is arranged in an internal space of the optical structural member along an axial direction of the optical structural member, wherein before packaging the adjustable optical lens and the optical sensor, at least one position of the lens in the internal space of the optical structural member is able to be adjusted, so that a central axis line of the adjustable optical lens and a central axis line of the optical sensor are coincided, so as to improve the image quality of the camera module. | 2021-05-06 |
20210132319 | OPTICAL ELEMENT DRIVING MECHANISM - An optical element driving mechanism has an optical axis and includes a fixed portion, a movable portion, and a driving assembly. The movable portion is movable relative to the fixed portion. The driving assembly drives the movable portion to move relative to the fixed portion, wherein the driving assembly moves along a first direction to move the movable portion along a second direction, the first direction is different from the second direction. | 2021-05-06 |
20210132320 | APPARATUS FOR ALTERING QUANTUM OF LIGHT PASSING THROUGH A LENS OF A PHOTOGRAPHIC DEVICE - An apparatus for altering quantum of light passing through a lens of a photographic device. The apparatus comprises of a base assembly configured to be detachably coupled to the lens of the photographic device, a first assembly comprising a first filter, a second assembly comprising a second filter and a third assembly comprising a third filter. The first assembly is configured to be detachably coupled to the base assembly. The second assembly is configured to be detachably coupled to the base assembly. The third assembly is configured to be detachably coupled to the base assembly. Combination of the first filter and the second filter forms a first range of neutral density filter and combination of the first filter and the third filter forms a second range of neutral density filter. | 2021-05-06 |
20210132321 | LENS SYSTEM, IMAGING DEVICE, AND IMAGING SYSTEM - A lens system for forming an image of light incident from an object side on an imaging element arranged on an image surface side includes: a plurality of lens elements including free-curved surface lenses; and a diaphragm arranged between the plurality of lens elements. The lens elements form a front group arranged on the object side of the diaphragm, and a rear group arranged on the image surface side of the diaphragm. A first lens element closest to the object side in the plurality of lens elements has an aspherical surface that is rotationally symmetrical. The free-curved surface lenses each has a free-curved surface that is asymmetrical with respect to a first direction and a second direction crossing with each other. A free-curved surface lens satisfying a conditional expression “D×(SV−SH)/IH>0.08” is arranged on the rear group in the plurality of lens elements. | 2021-05-06 |
20210132322 | FLOW CYTOMETER, LASER OPTICS ASSEMBLY THEREOF, AND METHODS OF ASSEMBLING THE SAME - A flow cytometer, laser optics assembly thereof, and methods of assembling the same are provided. The flow cytometer is capable of yielding consistent and accurate results despite exposure to adverse environmental conditions such as, for example, temperature changes within a relatively wide temperature range and/or a relatively large amount of random-axis mechanical vibration. The flow cytometer of the present disclosure is additionally or alternatively relatively insensitive to real or apparent core stream shifts, employs a slowly converging beam along the axis perpendicular to core stream flow, and provides the ability to precisely measure time-of-flight. | 2021-05-06 |
20210132323 | OPTICAL SYSTEM FOR HEAD-MOUNTED DISPLAY DEVICE - Systems and methods for providing an optical system in a head-mounted display (HMD) that is operable to modify virtual image light to correct for one or more vision conditions of a user's eyes. The optical system includes a left optical subsystem for the left eye and a right optical system for the right eye. Each optical subsystem includes a first correction portion and a second correction portion each having a lens assembly. A first lens assembly includes a first set of lenses having a first lens selectively adjustable along a first axis transverse to an optical path of the virtual image light. A second lens assembly includes a second set of lenses having a second lens selectively rotatable around a second axis transverse to the first axis. Selective adjustment of the first lens and the second lens helps to correct for the vision conditions in the user's eyes. | 2021-05-06 |
20210132324 | LENS APPARATUS AND IMAGE PICKUP APPARATUS - A lens apparatus includes a first barrel member including a first helicoid screw on an inner surface included therein, a second barrel member including a second helicoid screw, screwed with the first helicoid screw, on an outer surface included therein, the second barrel member being movable along a direction of an axis of the first barrel member, an urging member configured to urge the second helicoid screw against the first helicoid screw in a direction of a diameter of the first barrel member, and a third barrel member including an outer surface which has a diameter smaller than a diameter of the second helicoid screw. The urging member is held by the second barrel member inside the second barrel member, and is in contact with the outer surface of the third barrel member. | 2021-05-06 |
20210132325 | SELECTIVE DEFOCUS OF CAMERAS - Example implementations relate the selective defocus of cameras. For instance, in an example an electronic device including a camera including a lens having a field of view and a focal distance, a defocus switch, and an actuator to adjust the focal distance of the lens to selectively defocus a portion of the field of view of the lens in response to actuation of the defocus switch. | 2021-05-06 |
20210132326 | IMAGING DEVICE - An imaging device comprising a substrate upon which an imaging unit is mounted; a lens barrel holding a lens; a lens flange holding the lens barrel; and a plate holding the substrate and the lens flange. The plate has a first holding section that impels either the plate or the lens flange in the optical axis direction and fixes same and holds the other out of the substrate and the lens flange so as to be movable in a direction perpendicular to the optical axis. The other out of the substrate and the lens flange is fixed to the plate. | 2021-05-06 |
20210132327 | Camera Actuator For Lens And Sensor Shifting - Some embodiments include a camera voice coil motor (VCM) actuator configured to shift a lens and/or an image sensor along multiple axes. The VCM actuator may include a bottom flexure and a top flexure that connect one or more dynamic members to one or more static members. The VCM actuator may include stationary magnets and coils held by dynamic members. In some cases, the VCM actuator may be configured to move the image sensor along an optical axis, to move the image sensor in directions orthogonal to the optical axis, and/or to tilt the image sensor relative to the orthogonal axis. In some examples, the VCM actuator may be configured to move the image sensor in directions orthogonal to the optical axis, to move the lens along the optical axis, and/or to tilt the lens relative to the optical axis. | 2021-05-06 |
20210132328 | DRIVING MECHANISM - A driving mechanism is provided, including a polygonal base unit, a holder, a first driving assembly, a sensing magnet, and a magnetic field sensor. The polygonal base unit includes a substrate and a circuit board disposed on the substrate. The holder is movably connected to the base unit, wherein the holder is configured to hold an optical element that defines an optical axis. The first driving assembly is configured to drive the holder to move relative to the base unit. The sensing magnet is disposed on the holder. The magnetic field sensor is configured to detect the sensing magnet, wherein the magnetic field sensor is accommodated in a recess of the substrate. | 2021-05-06 |
20210132329 | AUTO FOCUSING APPARATUS - An auto focusing apparatus according to the present invention comprises: a base having an accommodation groove; a lens carrier provided in the accommodation groove of the base; a magnet provided on one surface of the lens carrier; a coil provided to the base so as to face the magnet; a main ball accommodation part formed in a corner of one side of the inner surface of the base facing the magnet on the lens carrier; a sub-ball accommodation part which is provided on the inner surface of the base, on which the main ball accommodation part is not formed, and which supports the other surface of the lens carrier, on which the magnet is not provided; a guide protrusion which is provided on the lens carrier at one side of the magnet and which protrudes toward the main ball accommodation part; and a plurality of balls provided between the main ball accommodation part and the guide protrusion and between the sub-ball accommodation part and the other surface of the lens carrier, wherein one ball is provided between the sub-ball accommodation part and the other surface of the lens carrier. | 2021-05-06 |
20210132330 | OPTICAL DEVICE - In an optical device, a movable unit includes a main body portion, a frame portion that surrounds the main body portion with a predetermined interval from the main body portion, and a plurality of connection portions which connect the main body portion and the frame portion to each other. A width of each of the connection portions is larger than an interval between the main body portion and the frame portion, and is smaller than a distance from a connection position with each of the connection portions in the frame portion to any of a connection position with each of a pair of first torsion support portions and a connection position with each of a pair of second torsion support portions. | 2021-05-06 |
20210132331 | MIRROR DEVICE - A mirror device includes: a mirror including a rotation shaft; a gear unit having gear teeth and coupled to the rotation shaft; a worm that meshes with the gear teeth; a holding member that supports the worm; a motor configured to rotationally drive the rotation shaft via the worm and the gear teeth; and a stopper mechanism ( | 2021-05-06 |
20210132332 | MIRROR DEVICE - A mirror device includes: a mirror having a rotation shaft and a reflecting surface that reflects display light; a support portion having a cylindrical shape, having a base end fixed and a tip end being a free end, and configured to rotatably support the rotation shaft; and a motor that pivots the mirror, in which the rotation shaft is inserted into the support portion while spreading the support portion outward in a radial direction, and is slidably supported by the support portion. | 2021-05-06 |
20210132333 | MIRROR DEVICE - A mirror device includes: a mirror including a rotation shaft pivotably supported, a coupling shaft separated from the rotation shaft, and a reflecting surface that reflects display light; a coupling member including a first coupling portion coupled to the rotation shaft and a second coupling portion coupled to the coupling shaft, and configured to pivot integrally with the mirror; a motor that is connected to the coupling member via a gear and that pivots the coupling member; and a first spring having one end side immovably fixed and another end side coupled to the coupling member, and configured to apply force to the coupling member in one rotation direction. | 2021-05-06 |
20210132334 | OPTICAL IMAGING LENS - An optical imaging lens is provided, sequentially including a first lens element, an aperture, a second lens element, a third lens element, a fourth lens element, and a fifth lens element from an object side to an image side along an optical axis. The optical imaging lens satisfies conditional expressions V2+V3+V4+V5≤170.000 and (T2+T4)/(T1+G12)≥2.900. Furthermore, other optical imaging lenses are also provided. | 2021-05-06 |
20210132335 | OPTICAL IMAGING LENS ASSEMBLY, IMAGE CAPTURING APPARATUS AND ELECTRONIC DEVICE - The present disclosure provides an optical imaging lens assembly comprising, in order from an object side to an image side: a first lens element having negative refractive power; a second lens element with negative refractive power having an object-side surface being convex in a paraxial region thereof and an image-side surface being concave in a paraxial region thereof; a third lens element having positive refractive power; a fourth lens element having positive refractive power; a fifth lens element having positive refractive power; and a sixth lens element; wherein the optical imaging lens assembly has a total of six lens elements. With such configuration, the optical imaging lens assembly of the present disclosure is characterized by a wide field of view, a compact size and high image quality. | 2021-05-06 |
20210132336 | OPTICAL IMAGING LENS ASSEMBLY - The present disclosure discloses an optical imaging lens assembly including, sequentially from an object side to an image side along an optical axis, a first lens having refractive power; a second lens having refractive power; a third lens having negative refractive power; a fourth lens having refractive power and a convex object-side surface; a fifth lens having refractive power and a concave object-side surface; a sixth lens having refractive power; a seventh lens having refractive power; and an eighth lens having refractive power. A total effective focal length f of the optical imaging lens assembly and half of a maximal field-of-view Semi-FOV of the optical imaging lens assembly satisfy: f*tan(Semi-FOV)>5.5 mm. A total effective focal length f of the optical imaging lens assembly and an effective focal length f1 of the first lens satisfy: 0.52021-05-06 | |
20210132337 | OPTICAL IMAGING LENS - An optical imaging lens may include a first, an aperture stop, a second, a third, a fourth, and a fifth lens elements positioned in an order from an object side to an image side along an optical axis. Through designing concave and/or convex surface of the lens elements, the optical imaging lens may have improved imaging quality, enlarged half field of view and reduced surface area in front of the optical imaging lens while the optical imaging lens may satisfy AAG/T5≤1.400 and HFOV≥50.000°, wherein a sum of the four air gaps from the first lens element to the fifth lens element along the optical axis is represented by AAG, a thickness of the fifth lens element along the optical axis is represented by T5, and a half field of view of the optical imaging lens is represented by HFOV. | 2021-05-06 |
20210132338 | IMAGING OPTICAL SYSTEM, IMAGE CAPTURING UNIT AND ELECTRONIC DEVICE - An imaging optical system includes six lens elements which are, in order from an object side to an image side: a first lens element, a second lens element, a third lens element, a fourth lens element, a fifth lens element and a sixth lens element. Each of the six lens elements has an object-side surface facing toward the object side and an image-side surface facing toward the image side. At least one of the six lens elements is a freeform lens element, and at least one of the object-side surface and the image-side surface of the at least one freeform lens element is a freeform surface. | 2021-05-06 |
20210132339 | OPTICAL IMAGING SYSTEM - The present disclosure discloses an optical imaging system including, sequentially from an object side to an image side along an optical axis, a first lens having refractive power; a second lens having refractive power; a third lens having positive refractive power; a fourth lens having refractive power; and a fifth lens having refractive power. Half of a diagonal length ImgH of an effective pixel area on an imaging plane of the optical imaging system and an entrance pupil diameter EPD of the optical imaging system satisfy: 0.52021-05-06 | |
20210132340 | OPTICAL IMAGING SYSTEM - The present disclosure discloses an optical imaging system, sequentially from an object side to an image side of the optical imaging system along an optical axis, including: a first lens having refractive power; a second lens having negative refractive power; a third lens having refractive power; a fourth lens having positive refractive power; a fifth lens having refractive power; a sixth lens having refractive power; and a seventh lens having refractive power, a concave object-side surface, and a concave image-side surface. Half of a diagonal length ImgH of an effective pixel area on an imaging plane of the optical imaging system may satisfy ImgH>6.0 mm. A total effective focal length f of the optical imaging system and an entrance pupil diameter EPD of the optical imaging system may satisfy f/EPD<1.9. | 2021-05-06 |
20210132341 | OPTICAL IMAGING LENS ASSEMBLY - The present disclosure discloses an optical imaging lens assembly including a first lens having positive refractive power with a convex object-side surface and a concave image-side surface; a second lens having refractive power; a third lens having refractive power with a concave image-side surface; a fourth lens having positive refractive power; a fifth lens having refractive power with a convex object-side surface and a concave image-side surface; a sixth lens having positive refractive power with a convex object-side surface and a convex image-side surface; and a seventh lens having negative refractive power with a concave object-side surface and a concave image-side surface. A distance TTL along the optical axis from the object-side surface of the first lens to an imaging plane, half a diagonal length ImgH of an effective pixel area on the imaging plane and a total effective focal length f satisfy: 5.00 mm2021-05-06 | |
20210132342 | LENS ASSEMBLY AND ELECTRONIC DEVICE INCLUDING THE SAME - Disclosed herein is a lens assembly that includes an aperture stop and at least three lenses. The first lens is disposed closer to the image sensor than the aperture stop, the first lens including two convex surfaces. The second lens is disposed closer to the image sensor than the first lens, and includes convex and concave surfaces. And the third lens is disposed closer to the image sensor than the second lens. The lens assembly meets Equation 1: | 2021-05-06 |
20210132343 | IMAGE CAPTURING OPTICAL SYSTEM, IMAGE CAPTURING DEVICE AND ELECTRONIC DEVICE - The present disclosure provides an image capturing optical system comprising: a positive first lens element having a convex object-side surface; a negative second lens element having a concave object-side surface; a third lens element; a fourth lens element having a convex object-side surface and a concave image-side surface, the object-side surface and the image-side surface thereof being aspheric; a fifth lens element having a concave image-side surface concave, both of the object-side surface and the image-side surface being aspheric, at least one of the object-side surface and the image-side surface having at least one convex shape in an off-axis region thereof. | 2021-05-06 |
20210132344 | IMAGE LENS ASSEMBLY AND IMAGE CAPTURING DEVICE - An image lens assembly includes, in order from an object side to an image side, a first lens element, a second lens element, a third lens element, a fourth lens element, a fifth lens element and a sixth lens element. The first lens element with positive refractive power has a convex object-side surface. The second lens element has positive refractive power. The third lens element has refractive power. The fourth lens element has refractive power. The fifth lens element with negative refractive power has a concave object-side surface, wherein both of the surfaces of the fifth lens element are aspheric. The sixth lens element with refractive power has a concave image-side surface, wherein the image-side surface thereof has at least one inflection point, and both of the surfaces of the sixth lens element are aspheric. The image lens assembly has a total of six lens elements with refractive power. | 2021-05-06 |
20210132345 | ZOOM LENS SYSTEM, AND LENS BARREL, IMAGE CAPTURE DEVICE, AND CAMERA SYSTEM INCLUDING THE ZOOM LENS SYSTEM - A zoom lens system includes: a first lens group having positive power; a second lens group having negative power; and following lens groups. The following lens groups include: a first focus lens group having negative power; and a second focus lens group having positive power, arranged adjacent to, and closer to the image than, the first focus lens group. The first and second focus lens groups move along an optical axis during focusing from an infinity focus point on a close focus point. During zooming from a wide-angle end toward a telephoto end, intervals between lens groups change with the first lens group fixed with respect to an image plane. The zoom lens system satisfies the Inequality −0.232021-05-06 | |
20210132346 | IMAGING OPTICAL SYSTEM, IMAGE CAPTURE DEVICE, AND CAMERA SYSTEM - An imaging optical system includes: a first lens group having negative power; a second lens group having positive power; a third lens group having negative power; and a fourth lens group having power, which are arranged in this order such that the first lens group is located closest to an object and the fourth lens group is located closest to an optical image. The first lens group includes: a first negative lens; a second negative lens; and a third negative lens which is a meniscus lens having negative power and a convex surface facing the optical image, which are arranged in this order such that the first negative lens is located closest to the object and the third negative lens is located closest to the optical image. During focusing from an infinity focus point toward a close focus point, the third lens group moves along an optical axis. | 2021-05-06 |
20210132347 | ZOOM LENS AND IMAGE PICKUP APPARATUS - A zoom lens includes, in order from an object side to an image side, a first lens unit configured not to move for zooming, a plurality of zooming lens units configured to move in zooming, a front relay lens unit configured not to move for zooming, an extender lens unit insertable into and removable from an optical path for changing a focal length range of the zoom lens, and a rear relay lens unit configured not to move for zooming, and satisfies specific conditional expressions. | 2021-05-06 |
20210132348 | CAMERA MODULE, OPTICAL APPARATUS, AND METHOD FOR MANUFACTURING CAMERA MODULE - A camera module having a high resolution, high optical performance, and a reduced size, an optical apparatus including the camera module, and a method for manufacturing a camera module | 2021-05-06 |
20210132349 | Optical System for Head-Mounted Display - A head-mounted display may include a display system and an optical system in a housing. The display system may have a pixel array that produces light associated with images. The display system may also have a linear polarizer through which light from the pixel array passes and a quarter wave plate through which the light passes after passing through the quarter wave plate. The optical system may be a catadioptric optical system having one or more lens elements. The lens elements may include a plano-convex lens and a plano-concave lens. A partially reflective mirror may be formed on a convex surface of the plano-convex lens. A reflective polarizer may be formed on the planar surface of the plano-convex lens or the concave surface of the plano-concave lens. An additional quarter wave plate may be located between the reflective polarizer and the partially reflective mirror. | 2021-05-06 |
20210132350 | METHOD AND APPARATUS FOR EXTENDING DEPTH OF FIELD DURING FLUORESCENCE MICROSCOPY IMAGING - The disclosed embodiments relate to a system that performs microscopy imaging with an extended depth of field. This system includes a stage for holding a sample, and a light source for illuminating the sample, wherein the light source produces ultraviolet light with a wavelength in the 230 nm to 300 nm range to facilitate microscopy with ultraviolet surface excitation (MUSE) imaging. The system also includes an imaging device, comprising an objective that magnifies the illuminated sample, and a sensor array that captures a single image of the magnified sample. The system also includes a controller, which controls the imaging device and/or the stage to scan a range of focal planes for the sample during an acquisition time for the single image. The system additionally includes an image-processing system, which processes the single image using a deconvolution technique to produce a final image with an extended depth of field. | 2021-05-06 |