45th week of 2019 patent applcation highlights part 39 |
Patent application number | Title | Published |
20190339457 | FIBER OPTICAL CONNECTOR WITH CABLE RETENTION FEATURE - A fiber optic connector includes a ferrule holder configured to receive a ferrule that terminates an optical fiber cable, a connector sub-assembly configured to receive an optical fiber cable and to hold the ferrule holder, a connector body configured to hold the connector sub-assembly, a shroud configured to encircle the connector body, and a housing configured to encircle a portion of the shroud. The connector body is configured to include a first mating member and a second mating member. The first mating member is configured to include a cantilevered flange, and the second mating member is configured to include a groove on an inner surface of the second mating member. The cantilevered flange is configured to engage with the groove to securely fasten the first mating member with the second mating member. | 2019-11-07 |
20190339458 | ANGLE POLISHED MULTI-FIBER CONNECTOR - A fiber optic cable assembly a termination assembly attached at the first and second ends of the ribbon. The ferrule has a polished contact surface that exposes ends of the optical fibers, and the contact surface forms an oblique angle relative to a plane normal to axes defined by the fibers. Each contact surface is slightly rotated clockwise or slightly rotated counter-clockwise with respect to the normal of the plane defined by the fiber array, so that when the second end of one cable assembly is mated to the first end of a second cable assembly in Key-Up to Key-Up Method B adapter configuration, the angled ferrule surfaces abut. | 2019-11-07 |
20190339459 | DUAL KEY POLARITY CHANGEABLE CONNECTOR - Optical fiber connectors configured to allow ease of change of the connector polarity by providing lockable outer housing. In an embodiment, an optical fiber connector comprises an inner housing, at least one key configured to move along the inner housing so as to change a polarity of said optical fiber connector, and an outer housing disposed around at least a portion of the inner housing and configured to slide in a longitudinal direction so as to expose at least a portion of said at least one key, wherein the outer housing includes a flexible portion configured to lock to the inner housing so as to retain the outer housing in a pulled back position relative to the inner housing. A removable alignment key is reattached to the connector to correspond to a first or second polarity. | 2019-11-07 |
20190339460 | MULTIPORTS AND OPTICAL CONNECTORS WITH ROTATIONALLY DISCRETE LOCKING AND KEYING FEATURES - Fiber optic connectors and connectorized fiber optic cables include connector housings having locking portions defined on the connector housing that allow the connector housing to be selectively coupled to a corresponding push-button securing member of a multiport assembly. Methods for selectively connecting a fiber optic connector to, and disconnecting the fiber optic connector from the multiport assemblies allow for connector housings to be forcibly and nondestructively removed from the multiport assembly. | 2019-11-07 |
20190339461 | FIBER OPTIC CONNECTORS AND MULTIPORT ASSEMBLIES INCLUDING RETENTION FEATURES - Fiber optic connectors and connectorized fiber optic cables include connector housings having locking portions defined on the connector housing that allow the connector housing to be selectively coupled to a corresponding push-button securing member of a multiport assembly. Methods for selectively connecting a fiber optic connector to, and disconnecting the fiber optic connector from the multiport assemblies allow for connector housings to be forcibly and nondestructively removed from the multiport assembly. | 2019-11-07 |
20190339462 | PLUG-IN CONNECTOR PART - A plug-in connector part for a plug-in connection, the plug-in connector part including a housing having first and second housing parts which are screw-connected together by a releasable screw connection. A fixed toothing is fixed on the first housing part and a locking ring and a preload spring are mounted on the second housing part. The locking ring is mounted on the second housing part so as to be displaceable and the preload spring preloads the locking ring in a direction toward an engagement position and the locking ring engages in the fixed toothing in the engagement position. With the locking ring in the engagement position, the screw connection is blocked in the connected state to prevent the screw connection being unscrewed. The locking ring is movable to a release position where the screw connection is rotatable in the connected state for unscrewing. The locking ring includes a gripping surface which is longitudinally extended in the longitudinal direction of the second housing part and a counter toothing with teeth which protrude from the gripping surface in the direction toward the fixed toothing. | 2019-11-07 |
20190339463 | MPO MICROLATCH LOCK CONNECTOR - Optical fiber connectors and adapters are disclosed. A connector includes a flat pin assembly including a pin, a mechanical transfer ferrule boot disposed around at least a portion of the assembly, a housing disposed around at least a portion of the ferrule, and a locking plate. The housing includes first, second, top, and bottom sides. The first and second sides include a recess. The top side includes a groove. The locking plate includes a fastening mechanism configured to interlock with the groove. An optical fiber adapter includes first and second adapter ends each having one or more connecting arms to secure a separate optical fiber connector. | 2019-11-07 |
20190339464 | REMOTE RELEASE TAB CONNECTOR ASSEMBLY - An optical fiber connector assembly comprises at least one connector having a latching arm for coupling to an adapter, and a remote release tab having a protrusion configured to cooperate with the adapter to depress said latching arm when the remote release tab is pulled relative to the adapter. The optical fiber connector assembly may further be configured to have a deformable region at one end of the pull tab operatively connector to the latch arm assembly for releasing the connector from the adapter. | 2019-11-07 |
20190339465 | FIBER OPTIC CASSETTE - A fiber optic cassette includes a body defining a front and an opposite rear. A cable entry location is defined on the body for a cable to enter the cassette, wherein a plurality of optical fibers from the cable extend into the cassette and form terminations at non-conventional connectors adjacent the front of the body. A flexible substrate is positioned between the cable entry location and the non-conventional connectors adjacent the front of the body, the flexible substrate rigidly supporting the plurality of optical fibers. Each of the non-conventional connectors adjacent the front of the body includes a ferrule, a ferrule hub supporting the ferrule, and a split sleeve surrounding the ferrule. | 2019-11-07 |
20190339466 | OPTICAL DEVICE INCLUDING BURIED OPTICAL WAVEGUIDES AND OUTPUT COUPLERS - Embodiments of the present disclosure are directed toward techniques and configurations for an optical coupler including an optical waveguide to guide light to an optical fiber. In embodiments, the optical waveguide includes a tapered segment to propagate the received light to the optical fiber. In embodiments, the tapered segment is buried below a surface of a semiconductor substrate to transition the received light within the semiconductor substrate from a first optical mode to a second optical mode to reduce a loss of light during propagation of the received light from the optical waveguide to the optical fiber. In embodiments, the surface of the semiconductor substrate comprises a bottom planar surface of a silicon photonic chip that includes at least one or more of passive or active photonic components. Other embodiments may be described and/or claimed. | 2019-11-07 |
20190339467 | COMMUNICATION MODULE HANDLE - A communication module handle may include a base, a grasp, a hinge, and a detent. The hinge may connect the base and the grasp. The detent may be configured to maintain a position of the grasp relative to the base in an extended position. In response to the detent being subjected to a detent-releasing force, the detent may release the grasp from the extended position to a collapsed position. The grasp may be rotatable relative to the base by way of the hinge in the collapsed position. | 2019-11-07 |
20190339468 | SPARE CHANNELS ON PHOTONIC INTEGRATED CIRCUITS AND IN PHOTONIC INTEGRATED CIRCUIT MODULES AND SYSTEMS - Consistent with the present disclosure, one or more spare Widely Tunable Lasers (WTLs) are integrated on a PIC. In the event that a channel, including, for example, a laser, a modulator and a semiconductor optical amplifier in a transmitter or Tx PIC, or a laser, optical hybrid, and photodiodes, for example, in a receiver PIC (Rx PIC), includes one or more defective devices, a spare channel is selected that includes a widely tunable laser (WTL) which may be tuned to the wavelength associated with any of the channels on the PIC. Accordingly, the spare channel replaces the defective channel or the lowest performing channel and outputs modulated optical signals at the wavelength associated with the defective channel. Thus, even though a defective channel may be present, a die consistent with the present disclosure may still output or receive the desired channels because the spare channel replaces the defective channel. As a result, yields and minimum performance may improve compared to PICs that do not have a spare channel and manufacturing costs may be reduced. Alternatively, connections, such as fiber connections, may be made only to the operation or best performing channels. | 2019-11-07 |
20190339469 | MACRO-MOLECULAR LEAKAGE-FREE SELF-ADHERING ALUMINUM FOIL AND MANUFACTURING METHOD THEREOF - A macro-molecular leakage-free self-adhering aluminum foil has two layers of aluminum foil compounded using a PET film, and the other surfaces of each layer coated with a modified PE adhesive layer respectively; or air gaps in one surface or two surfaces are filled with nano-aluminum to form a permeable air gap-free surface. The foil has advantages: 1. high folding resistance, fatigue resistance and strength 2, wrapping self-adhering performance is good, and stripping strength formed after adhesion is several times as high as that of the prior art; 3, air gaps in the surface of the aluminum foil filled with nano-aluminum powder result in improved compactness; manufacture from low-grade aluminum foil, and so that rolling precision requirements are lowered, and manufacturing cost reduced; 4, insulating strength is high, shielding effect is good, the return loss phenomenon is avoided, and tensile strength is good. | 2019-11-07 |
20190339470 | FERRULE-LESS MULTI-FIBER CONNECTORS - A connection system includes an optical connector assembly; and an optical plug. The connector assembly includes a stack of gel-groove assemblies and a spring assembly mounted within a housing. Each of the gel-groove assemblies includes a first gel block at a first axial end, a second gel block at a second axial end, and a fiber mating region between the first and second gel blocks. The optical plug including sub-modules over-molded over arrays (e.g., ribbons) of the optical fibers. Each sub-module defines notches for receiving latches of the spring assembly when the optical plug is coupled to the first axial end of the optical adapter. Bare optical fibers extend from the plug, pass through the first axial gel block, and enter the fiber mating region when the plug is coupled to the adapter. | 2019-11-07 |
20190339471 | INTEGRATED DISTRIBUTION ENABLING ACCESS APPARATUS - Provided is an apparatus including: a housing having a splitter compartment; a multiple fiber adapter attached to an exterior of a front housing wall of said housing; a multiple fiber connector connected to said multiple fiber adapter and disposed in an interior of the front housing wall of said housing; an optical splitter in said splitter compartment of said housing; an input fiber optically connected to said optical splitter; and a plurality of output fibers optically connected to said optical splitter and said multiple fiber connector, wherein the housing includes a hinge plate corresponding to a bottom housing wall perpendicular to the front housing wall of said housing in a closed state and mounted on a hinge affixed to said housing at an intersection between the bottom housing wall and a rear housing wall opposite from the front housing wall. | 2019-11-07 |
20190339472 | MOUNTING SYSTEM FOR TELECOMMUNICATIONS DISTRIBUTION ELEMENTS - A mounting system ( | 2019-11-07 |
20190339473 | Conduits with Capillary Structures - The present disclosure provides a conduit ( | 2019-11-07 |
20190339474 | SPLICE-ON CABLE BREAKOUT ASSEMBLY - A break-out assembly includes an enclosure defining a first port at the first end to receive an optical cable and a second port at the second end to receive a plurality of break-out cables. Each port leads to the interior of the enclosure. A cable retention region defined within the enclosure at the second end is configured to enable the break-out cables to each secure to the enclosure at one of a plurality of axial locations. Certain types of break-out assemblies include other cable retention regions to axially and/or rotationally secure the optical cable to the enclosure. A splice retention region is disposed within the enclosure between the first port and the second cable retention region. The splice retention region receives optical splices at which optical fibers of the optical cable are spliced to optical fibers of the break-out cables. | 2019-11-07 |
20190339475 | FLEXIBLE BOOT WITH REPLACABLE REPOSITIONING DEVICE THEREIN - A boot assembly having a boot body with a passageway molded from a proximal to distal end of the body. The passageway accepts a repositioning device made of a malleable material such as metal that retains its shape under internal forces of the boot assembly. The boot assembly further comprises one or more cables for fiber optics or power. Bending the flexible boot assembly from a first position to a second position, the flexible boot assembly retains the second position without returning to the first position under the resilient material of the boot | 2019-11-07 |
20190339476 | Lens Module - A lens module, including: a lens barrel in which a lens is accommodated, and a holder disposed at periphery of the lens barrel and holding the lens barrel. The lens barrel is provided with a mounting portion, the holder includes an object side surface and a side wall extending from the object side surface and surrounding the periphery of the lens barrel. The side wall is provided with a guiding groove formed by recessing from the side wall, and a locking groove communicating with the guiding groove. The guiding groove extends along axial direction of the holder, and end of the guiding groove communicates with the locking groove. The locking groove extends from the guiding groove along circumferential direction. The mounting portion matches with the guiding groove and slides into the locking groove, the mounting portion rotates along circumferential direction and is received and locked in the locking groove. | 2019-11-07 |
20190339477 | OPTICAL SYSTEM - An optical system includes a base, a first lens driving module, and a second lens driving module. The first lens driving module includes a first lens holder, a first magnet, and a first coil. The first lens holder is configured to hold a first optical element. The first coil corresponding to the first magnet is configured to drive the first lens holder to move relative to the base. The second lens driving module includes a second lens holder, a second magnet, and a second coil. The second lens holder is configured to hold a second optical element. The second coil corresponding to the second magnet is configured to drive the second lens holder to move relative to the base. The first magnet is disposed between the first and second lens holders, and no other magnet is disposed between the first and second lens holders except the first magnet. | 2019-11-07 |
20190339478 | OPTICAL DEVICE - The present invention is intended to realize an optical device in which an optical member and a sensor are directly bonded to each other while overflow of an adhesive onto light receiving elements is suppressed. The optical device ( | 2019-11-07 |
20190339479 | MIRROR ASSEMBLY WITH HEAT TRANSFER MECHANISM - A mirror assembly ( | 2019-11-07 |
20190339480 | LENS ASSEMBLY ACTUATING MODULE AND ELECTRONIC DEVICE - A lens assembly actuating module includes a holder, a metal yoke, a lens actuator and a Hall sensor. The holder includes a central opening, at least three metal connectors insert-molded with the holder, at least two metal terminals insert-molded with the holder, and a plurality of plated metal layers disposed on a surface of the holder. The metal yoke is coupled with the holder. The lens actuator is for carrying a lens unit including an optical axis. The lens actuator is movably disposed in the metal yoke. The lens actuator includes at least one elastic element and at least three metal hanging wires. The Hall sensor is disposed on one of the plated metal layers of the holder. The Hall sensor is for detecting a movement of the lens unit along a direction perpendicular to the optical axis. | 2019-11-07 |
20190339481 | LENS DRIVING DEVICE, CAMERA MODULE AND OPTICAL APPARATUS - A lens driving device is provided, the lens driving device including a housing including a through hole; a bobbin accommodated at the through hole; a magnet disposed on the housing; a first coil disposed on the bobbin and facing the magnet; a first support member coupled to the housing and the bobbin, and movably supporting the bobbin in a direction of an optical axis; a protrusion part outwardly protruded from an outer lateral surface of the bobbin; and a groove part on the housing at a position corresponding with the protrusion part and accommodating at least a portion of the protrusion part, wherein an outer lateral surface of the protrusion part includes a first surface, a second surface and a third surface disposed between the first surface and the second surface, wherein each of the first surface, the second surface and the third surface is parallel with an inner lateral surface of the groove part, and wherein an angle between the first surface and the third surface, and an angle between the second surface and the third surface are an obtuse angle. | 2019-11-07 |
20190339482 | LENS DRIVING APPARATUS, PHOTOGRAPHING MODULE AND ELECTRONIC DEVICE - A lens driving apparatus includes a holder, a metal cover, a carrier, a sensing magnet, a printed circuit board, a position sensor, a coil and at least one driving magnet. The metal cover is coupled with the holder and has an opening. The carrier is assembled to a lens assembly having an optical axis, wherein the carrier is disposed in the metal cover and is movable along a direction parallel to the optical axis. The sensing magnet is coupled with the carrier. The printed circuit board is disposed near to one of the four lateral sides of the holder. The position sensor is disposed on the printed circuit board and corresponds to the sensing magnet. The coil is disposed on an outer surface of the carrier. One of the driving magnet is disposed in the metal cover and corresponds to the coil. | 2019-11-07 |
20190339483 | LENS MOVING MECHANISM - A lens moving mechanism includes a lens mount unit on which a lens for projecting light is mounted, a lens guide unit which supports the lens mount unit and guides the lens mount unit in at least one axis direction among three orthogonal axis directions including an optical axis direction of the light, and a lens guide fixing unit to which the lens guide unit is fixed. The lens guide unit includes a plurality of linear motion guide devices each including a track body fixed to the lens guide fixing unit and a moving body moving along the track body. A plurality of track bodies are coaxially disposed in the lens guide fixing unit. | 2019-11-07 |
20190339484 | ADJUSTABLE MIRROR ASSEMBLY FOR A BOAT - An adjustable mirror assembly includes a mirror having a reflective surface. The adjustable mirror assembly may include a first locking mechanism configured to lock a support in a finite number of discrete positions. The support may be movable between a lowered position and a raised position. The mirror may be pivotally mounted to the support and may be configured to pivot about a second pivot axis to orient the reflective surface of the mirror in an aft-facing direction in both the lowered position and the raised position. | 2019-11-07 |
20190339485 | Imaging Device - To obtain an imaging device capable of achieving high functionality of the imaging device by facilitating detection of an incident angle of light transmitted through a grating substrate. There is provided an imaging device which includes an image sensor that converts an optical image captured by a plurality of pixels arranged in an array on an imaging surface into an image signal and outputs the image signal, a modulator that is provided on a light receiving surface of the image sensor and modulates light intensity, an image storing unit that temporarily stores the image signal output from the image sensor, and a signal processing unit that performs image processing of the image signal output from the image storing unit, and in which the modulator has a first grating pattern composed of a plurality of concentric circles, and the signal processing unit modulates the image signal output from the image storing unit with a virtual second grating pattern composed of a plurality of concentric circles so as to generate a moiré fringe image and changes a size of the concentric circle of the second grating pattern according to a focus position. | 2019-11-07 |
20190339486 | OPTICAL IMAGE CAPTURING SYSTEM - An optical image capturing system is provided. In order from an object side to an image side, the optical image capturing system includes a first lens, a second lens, a third lens and a fourth lens. The first lens has a refractive power and the object side thereof may be convex. The second lens and the third lens have refractive power. The object side and the image side of the foregoing lenses may be aspheric. The fourth lens may have positive refractive power. The object side and the image side thereof are aspheric. At least one of surfaces of the fourth lens may have one inflection point. The four lenses have refractive power. When meeting some certain conditions, the optical image capturing system may have outstanding light-gathering ability and an adjustment ability about the optical path in order to elevate the image quality. | 2019-11-07 |
20190339487 | OPTICAL IMAGE CAPTURING SYSTEM - An optical image capturing system is provided. In order from an object side to an image side, the optical image capturing system includes a first lens, a second lens, a third lens and a fourth lens. The first lens has a refractive power and the object side thereof may be convex. The second lens and the third lens have refractive power. The object side and the image side thereof may be aspheric. The fourth lens may have positive refractive power. The object side and the image side thereof are aspheric. At least one of sides of the fourth lens may have one inflection point. The four lenses have refractive power. When meeting some certain conditions, the optical image capturing system may have outstanding light-gathering ability and an adjustment ability about the optical path in order to elevate the image quality. | 2019-11-07 |
20190339488 | IMAGING LENS SYSTEM - An imaging lens system may include a first lens; a second lens; a third lens; a diaphragm; a fourth lens; a fifth lens; a sixth lens; and a seventh lens. The first lens may be a positive meniscus lens. The second lens may be a negative meniscus lens. The third lens may be a meniscus lens comprising. The fourth lens may be a positive lens. The fifth lens may be a positive lens. The sixth lens may be a negative lens comprising a sixth lens concave surface facing the image side. The seventh lens may be a positive lens comprising a seventh lens convex surface facing the object side. The fifth lens may be a glass lens. The second, third, fourth, sixth and seventh lenses may be plastic lenses. The sixth lens concave surface may be joined to the seventh lens convex surface with an adhesive. | 2019-11-07 |
20190339489 | OPTICAL IMAGING LENS - An optical imaging lens includes a first lens element, a second lens element, a third lens element and a fourth lens element. The first lens element has positive refracting power, an optical-axis region of the object-side surface of the second lens element is convex, a periphery region of the object-side surface of the second lens element is convex, and an optical-axis region of the image-side surface of the second lens element is convex. The Abbe number of the first lens element is ν1, the Abbe number of the second lens element is ν2 and the Abbe number of the third lens element is ν3 to satisfy 61.119≤ν1+ν2+ν3≤96.733. | 2019-11-07 |
20190339490 | WIDE-ANGLE LENS ASSEMBLY - A wide-angle lens assembly includes, in order from an object side to an image side along an optical axis, a first lens with negative refractive power, a second lens with negative refractive power, a third lens with positive refractive power, a fourth lens with positive refractive power, a fifth lens with positive refractive power, a sixth lens with negative refractive power, and a seventh lens with positive refractive power; wherein, the wide-angle lens assembly satisfies the following condition: 0.22019-11-07 | |
20190339491 | OPTICAL IMAGE CAPTURING SYSTEM - The invention discloses a five-piece optical lens for capturing image and a five-piece optical module for capturing image. In order from an object side to an image side, the optical lens along the optical axis comprises a first lens with refractive power; a second lens with refractive power; a third lens with refractive power; a fourth lens with refractive power; a fifth lens with refractive power; and at least one of the image-side surface and object-side surface of each of the five lens elements is aspheric. The optical lens can increase aperture value and improve the imagining quality for use in compact cameras. | 2019-11-07 |
20190339492 | OPTICAL IMAGE CAPTURING SYSTEM - The invention discloses a five-piece optical lens for capturing image and a five-piece optical module for capturing image. In order from an object side to an image side, the optical lens along the optical axis comprises a first lens with refractive power; a second lens with refractive power; a third lens with refractive power; a fourth lens with refractive power; a fifth lens with refractive power; and at least one of the image-side surface and object-side surface of each of the five lens elements is aspheric. The optical lens can increase aperture value and improve the imagining quality for use in compact cameras. | 2019-11-07 |
20190339493 | MOBILE DEVICE AND OPTICAL IMAGING LENS THEREOF - An optical imaging lens includes first, second, third, fourth, fifth, and sixth lens elements, each having an object-side surface facing toward an object side and an image-side surface facing toward an image side. The image-side surface of the first lens element includes a concave portion in a vicinity of the optical axis and a concave portion in a vicinity of a periphery of the first lens element. The image-side surface of the second lens element includes a convex portion in a vicinity of the optical axis. The image-side surface of the third lens element includes a concave portion in a vicinity of a periphery of the third lens element. The object-side surface of the fourth lens element includes a concave portion in a vicinity of the optical axis. The optical imaging lens as a whole has only the six lens elements having refractive power. | 2019-11-07 |
20190339494 | IMAGE LENS ASSEMBLY SYSTEM - An image lens assembly system 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, a sixth lens element and a seventh lens element. The first lens element with negative 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 has refractive power. The sixth lens element with refractive power is made of plastic material, wherein at least one surface of the sixth lens element is aspheric. The seventh lens element with refractive power made of plastic material has a concave image-side surface changing from concave in a paraxial region to convex in a peripheral region, and at least one surface thereof is aspheric. | 2019-11-07 |
20190339495 | CAMERA SYSTEM - A camera system including a telephoto lens module is provided. The telephoto lens module includes a first image sensor, a first assembly, and a second assembly. The first assembly includes a first driving mechanism and a reflecting member connected to the first driving mechanism. The first driving mechanism is configured to drive the reflecting member to rotate around a first axis and a second axis. The second assembly is disposed between the first assembly and the first image sensor, including a second driving mechanism and a first lens. The second driving mechanism is configured to drive the first lens to move along a third axis. The first, second, and third axes are not parallel to each other. When light enters the telephoto lens along the first axis, light is reflected by the reflecting member and through the first lens along the third axis to the first image sensor. | 2019-11-07 |
20190339496 | SUPER WIDE ANGLE ZOOM LENS - A super wide angle zoom lens may include: a first lens having convex surfaces at an object side and an image side, and formed in a spherical shape; a second lens having a concave surface at the object side; a third lens having a convex surface at the image side; and a fourth lens having a convex surface at the object side and formed in a spherical shape, wherein the first to fourth lenses are sequentially arranged from the object side toward the image side. | 2019-11-07 |
20190339497 | OPTICAL SYSTEM AND IMAGE PICKUP APPARATUS - Provided is an optical system including, in order from an object side to an image side: a first lens unit having a positive refractive power; a first focus lens unit having a positive refractive power and configured to move toward the object side for focusing from infinity to a closest object distance; and a second focus lens unit having a negative refractive power and configured to move toward the image side during focusing from infinity to the closest object distance, and an interval between each pair of adjacent lens units is changed during focusing. Further, a focal length of the first focus lens unit, a movement amount of the first focus lens unit during focusing from infinity to the closest object distance, a focal length of the optical system, and a total lens length of the optical system are each appropriately set. | 2019-11-07 |
20190339498 | MICROSCOPE APPARATUS, OBSERVATION METHOD, AND MICROSCOPE APPARATUS-CONTROL PROGRAM - There are provided a microscope apparatus, an observation method, and a microscope apparatus-control program that can more efficiently perform auto-focus control and can shorten an imaging time in a case where a culture vessel is to be scanned by an image forming optical system and the auto-focus control is to be performed at each observation position. Focus information of a culture vessel is detected by a first displacement sensor and a second displacement sensor while a stage is moved to a scanning measurement position from an initial set position, and an auto-focus control unit performs auto-focus control at every observation position on the basis of the focus information in a case where the stage has been moved to the scanning measurement position. | 2019-11-07 |
20190339499 | Microscopes Including Illumination Field Diaphragms - Surgical microscopes are provided including at least one ocular, an objective lens; a collimated space between the at least one ocular and the objective lens; an illumination system optically coupled into the collimated space of the surgical microscope, wherein an illumination from the illumination system is directed along a path at least partially contained within the collimated space of the surgical microscope and through the objective lens; and one of a field diaphragm and obscuration mask positioned within the illumination system, and outside of a field of view of the at least one ocular, wherein the one of the field diaphragm and the obscuration mask blocks, attenuates or diverts rays from the illumination system that reflect from a surface of the objective lens such that the reflected rays are not visible through the at least one ocular. | 2019-11-07 |
20190339500 | OPTICAL ARRANGEMENT FOR PULSED ILLUMINATION, METHOD FOR PULSED ILLUMINATION AND MICROSCOPE - An optical arrangement has an optical beam path for illuminating a sample space with a sequence of laser light pulses generated in a laser cycle, the optical arrangement. At least one laser light source is configured to generate the sequence of laser light pulses along the optical beam path. A wavelength-selective pulse picker is situated in the optical beam path and has, in a predefined illumination clock timing synchronizable with the laser light pulses, an open state in which the pulse picker is light-transparent to at least one laser light pulse towards the sample space. The open state has at least two different transmission states which differ with regard to their respective transmission spectrums, and wherein the two transmission states are switchable on and/or off independently of one another. | 2019-11-07 |
20190339501 | Observation Optical System, Observation Imaging Device, Observation Imaging System, Image Forming Lens System, and Method of Adjusting Observation Optical System - A small observation optical system having a high resolution, an observation imaging device that includes the observation optical system, an observation imaging system, an image forming lens system, and a method of adjusting the observation optical system. The observation optical system includes an objective lens system G | 2019-11-07 |
20190339502 | MICROSCOPY METHOD FOR IMAGING AN OBJECT AND MICROSCOPE - A microscopy method for imaging an object includes: imaging the object into an optical image onto an image detector, generating electronic image data from the optical image using the image detector and generating an electronic image from the electronic image data, defining a region of interest in the electronic image, determining a depth distribution in the region of interest and/or in a region of the object corresponding to the region of interest, determining a desired depth region in the depth distribution, selecting at least one imaging parameter with which a size of a depth-of-field region can be changed, and setting the depth-of-field region of the electronic image by changing the at least one selected imaging parameter such that the depth-of-field region covers the desired depth region or covers a specific portion thereof. | 2019-11-07 |
20190339503 | SYSTEMS, DEVICES AND METHODS FOR AUTOMATIC MICROSCOPE FOCUS - An automatic focus system for an optical microscope that facilitates faster focusing by using at least two offset focusing cameras. Each offset focusing camera can be positioned on a different side of an image forming conjugate plane so that their sharpness curves intersect at the image forming conjugate plane. Focus of a specimen can be adjusted by using sharpness values determined from images taken by the offset focusing cameras. | 2019-11-07 |
20190339504 | SYSTEM AND METHOD FOR MEASURING THE FOCUS STATE OF AN OPTICAL INSTRUMENT - A system and a method for measuring the focus state of an optical instrument are described. The system and the method provide for forming an image of the exit pupil of the objective of the optical instrument. Where the image of the exit pupil is formed, one or more optical elements are placed, deviating at least part of the rays coming from the exit pupil, so that rays coming from different non-overlapping portions of the pupil follow separate optical paths. The rays coming from the two portions of the pupil are then focused, in order to obtain two bidimensional images. A computer determines the mutual distance between these two bidimensional images as a mutual rigid lateral displacement between the two and, based on this distance, determines the corresponding defocus of the optical instrument. | 2019-11-07 |
20190339505 | INCLINATION MEASUREMENT AND CORRECTION OF THE COVER GLASS IN THE OPTICAL PATH OF A MICROSCOPE - A method for adjusting a specimen holder in the beam path of a microscope, in which at least one beam of an illumination radiation is directed onto the specimen holder; a component of the illumination radiation reflected by the specimen holder is captured by means of a detector and measurement values of the captured illumination radiation are ascertained. A current actual manner of positioning of the specimen holder in relation to the beam path is established depending on the measurement values; the established actual manner of positioning is compared to an intended manner of positioning, and control commands for modifying the actual manner of positioning are produced, the execution of which causes the specimen holder to be moved into the intended manner of positioning. | 2019-11-07 |
20190339506 | DIGITAL MICROSCOPE AND DIGITAL MICROSCOPY METHOD - A digital microscope is provided. The digital microscope includes an adjustable imaging system configured to display an object on an electronic display device, a control device which adjusts the imaging system, and a distance capturing device configured to determine a distance between an observer and the display device. The control device determines a perceivable structure size, perceivable on the display device, depending on the distance, and adjusts the imaging system to permit a resolved structure size, resolved by the display device, to be identical to the perceivable structure size within a given tolerance range. | 2019-11-07 |
20190339507 | Spectrally Encoded Probe with Multiple Diffraction Orders - A spectrally encoded endoscopic probe. The probe has a light guiding component, a light focusing component, and a grating component. The probe is configured such that a set of light beams of multiple wavelengths are diffracted by the grating component in different orders at substantially the same angle. The set of light beams includes at least 3 light beams. Each light beam among the set of light beams is associated with a different wavelength. | 2019-11-07 |
20190339508 | LIGHT TRANSMISSION BAND CHANGE UNIT, CAMERA MODULE, AND OPTICAL DEVICE - The present embodiment relates to a light transmission band change unit comprising: a base including a first axis; a blade arranged on the base and including a body, which has a first hole having a lens and an infrared pass filter arranged therein, a second hole having an infrared cut filter arranged therein, and a third hole into which the first axis is inserted; a magnet arranged between the base and the blade; a core coupled with the base and having a coil arranged thereon; and a blade cover including an upper plate arranged on the blade so as to have a fourth hole formed at a position corresponding to the lens, wherein at least a portion of the lens is arranged within the fourth hole. | 2019-11-07 |
20190339509 | VARIABLE FOCAL LENGTH OPTICAL ELEMENT - A variable focal length optical element including a first substrate, at least one piezoelectric thin film, a reflection layer and multiple driving electrodes is provided. The first substrate has a first chamber. The at least one piezoelectric thin film is located on the first substrate. The reflection layer is located on a surface of the at least one piezoelectric thin film. The driving electrodes are located on the first substrate, and surround the first chamber. The at least one piezoelectric thin film is respectively driven by the corresponding driving electrodes, and each driving electrode respectively applies a driving voltage to the at least one piezoelectric thin film to deform the at least one piezoelectric thin film. The at least one piezoelectric thin film is adapted to effectively maintain optical quality of the variable focal length optical element under different environmental conditions, and avails improving reliability thereof. | 2019-11-07 |
20190339510 | Apparatus for Deflecting and/or Modulating Laser Radiation - An apparatus for deflecting and/or modulating a laser radiation, wherein the laser radiation is a plurality of laser beams. The apparatus comprises a plurality of deflecting elements configured as mirror elements or transparent components, and movement apparatus that is capable of moving the plurality of deflecting elements individually or in groups. The movement apparatus comprises a plurality of piezo actuators which are capable of performing a translatory motion. | 2019-11-07 |
20190339511 | BUCKLING MODE ACTUATION OF FIBER SCANNER TO INCREASE FIELD OF VIEW - Described herein are embodiments of fiber scanning systems and methods of scanning optical fibers. The disclosed systems and methods advantageously provide an improvement to the scanning range, the oscillation amplitude, and/or the maximum pointing angle for an optical fiber in a fiber scanning system by inducing a buckling of a portion of the optical fiber. | 2019-11-07 |
20190339512 | Portable Surface Finishing Device Based on Coherent Light Source - A portable surface finishing device based on coherent light source includes a cover, a laser source, an optical calibrating module and a laser scanning module. The cover includes a beam output opening. The laser source is disposed in the cover, and is for providing a laser beam. The optical calibrating module is disposed in the cover, and the laser beam passes through the optical calibrating module. The laser scanning module is disposed in the cover, and the laser beam from the optical calibrating module passes through the laser scanning module so as to linearly output on a target surface. The laser scanning module includes a multifaceted reflective structure, a rotation driving mechanism and an F-theta lens. | 2019-11-07 |
20190339513 | PHOTONIC CRYSTAL FIBER AND HIGH-POWER LIGHT TRANSMISSION SYSTEM - A photonic crystal fiber according to the present invention has a plurality of holes arranged in the optical fiber along a longitudinal direction, in which the holes are arranged such that, in a cross section, a hole ratio which is an area of the holes per unit area is larger in a central side than in an outer side in a portion corresponding to a cladding and that a wide core area can be obtained while the number of modes that can be propagated is limited to several. Moreover, in a high-power optical transmission system according to the present invention, the amount of axis misalignment between the central axis of a laser oscillator and the central axis of the photonic crystal fiber is less than or equal to a certain amount. | 2019-11-07 |
20190339514 | SCANNING OPTICAL DEVICE WITH BROADENED IMAGE AREA - An optical device that provides a broadened circular scanning pattern. The device includes a reflector system dimensioned to form a coupled oscillator with two modes of oscillation for circular tilt motion, a first mode oscillation in a first resonance frequency and a second mode of oscillation in a second resonance frequency that is different from the first resonance frequency. A signal processing element is configured to control the actuation signals to maintain a first amplitude in the first mode of oscillation, and a second amplitude in the second mode of oscillation. | 2019-11-07 |
20190339515 | EXPANDING A PUPIL USING REPLICATION - The pupil formed by an optical apparatus is expanded by use of a beam splitter to replicate the pupil and a waveguide to further replicate the replicated pupil. An optional rotator element can rotate a portion of the light split by the beam splitter to provide consistent polarization of light in the optical apparatus. In some embodiments, the beam splitter replication expands the pupil in one direction, while the waveguide replication expands the pupil in a second direction. | 2019-11-07 |
20190339516 | VIRTUAL REALITY HEAD-MOUNTED APPARATUS - Methods, systems, and apparatus for a virtual reality (VR) head-mounted apparatus are provided. One of the apparatus includes an apparatus body and a heat-generating element. The apparatus body may comprise an installation space and a heat dissipating channel having a non-straight-line structure. The heat-generating element may be installed in the installation space, and two ends of the heat dissipating channel may be in connection with the installation space and the exterior of the apparatus body. The VR head-mounted apparatus provides improved heat dissipating capability without adversely affecting immersive VR experience. | 2019-11-07 |
20190339517 | LAMINATED GLASS - A laminated glass includes an interlayer between an exterior glass plate and an interior glass plate; an information acquisition area; and a test area A specified in JIS R3212. The information acquisition area is positioned above the test area A. At least a part of a periphery of the information acquisition area is surrounded by a shielding layer formed of a colored ceramic layer. One of the exterior and interior glass plates is thicker at an upper end than at a lower end. Denoting a degree of thickness difference of the information acquisition area by α and a degree of thickness difference of the test area A by β, a ratio α/β is greater than or equal to 1.01, where α or β is the ratio of thicknesses of the exterior and interior glass plates at the center of gravity of the corresponding area. | 2019-11-07 |
20190339518 | COMPACT HEAD-UP DISPLAY THAT INCLUDES A FLAT LENS WITH A STRUCTURED PATTERN - A stabilization arrangement ( | 2019-11-07 |
20190339519 | VEHICLE DISPLAY APPARATUS - A vehicle display apparatus includes an HUD that projects a display image formed at a first conjugate position to a projection member so as to place the display image as a virtual image at a second conjugate position. The first conjugate position is conjugate to a viewing region inside a vehicle through the projection member, and the second conjugate position is conjugate with an external sensor through the projection member. An HCU increases display luminance of a selected image selected from the display image to a fail-safe luminance by controlling a virtual image display state of the display image when a fail condition is met. The fail condition is that the current brightness detected by the external sensor exceeds an upper limit of an allowable range. | 2019-11-07 |
20190339520 | HEAD-UP DISPLAY - Provided is a head-up display which projects an image on a windshield and forms a virtual image visually recognizable by a viewer. The head-up display includes a display element which displays the image and a projection optical system which guides the image displayed by the display element to the windshield and forms the virtual image. The projection optical system includes at least two mirrors each having a reflective surface with a concave profile. The windshield has a curvature radius Rx in the right-left direction of the windshield which satisfies 0.052019-11-07 | |
20190339521 | Head-Up Display Combiner Positioning and Locking System - A combiner positioning system for a head-up display includes a carrier and a locking element. The carrier supports a combiner for the head-up display, and the combiner is movable between a stowed position and a display position. The locking element has an engaged position and a disengaged position. The locking element engages a portion of the carrier in the display position and rigidly holds the carrier in the display position. | 2019-11-07 |
20190339522 | METHODS AND APPARATUS FOR TRANSPARENT DISPLAY USING SCATTERING NANOPARTICLES - Transparent displays enable many useful applications, including heads-up displays for cars and aircraft as well as displays on eyeglasses and glass windows. Unfortunately, transparent displays made of organic light-emitting diodes are typically expensive and opaque. Heads-up displays often require fixed light sources and have limited viewing angles. And transparent displays that use frequency conversion are typically energy inefficient. Conversely, the present transparent displays operate by scattering visible light from resonant nanoparticles with narrowband scattering cross sections and small absorption cross sections. More specifically, projecting an image onto a transparent screen doped with nanoparticles that selectively scatter light at the image wavelength(s) yields an image on the screen visible to an observer. Because the nanoparticles scatter light at only certain wavelengths, the screen is practically transparent under ambient light. Exemplary transparent scattering displays can be simple, inexpensive, scalable to large sizes, viewable over wide angular ranges, energy efficient, and transparent simultaneously. | 2019-11-07 |
20190339523 | Display System With Optical Module Having Pressure-Relieving Feature - An optical module for a display system includes a lens, a display screen, a movement mechanism, and one or more pressure-relieving features. The display screen cooperatively defines a chamber with the lens. The lens and the display screen are moved relative to each other by the movement mechanism. The one or more pressure-relieving features are in fluid communication with the chamber to hinder pressure in the chamber as the lens and the display are moved relative to each other. | 2019-11-07 |
20190339524 | REAL TIME ALGORITHMIC CALIBRATION AND COMPENSATION OF VIRTUAL AND AUGMENTED REALITY SYSTEMS AND OPTIMIZED SEMI-TRANSPARENT AND TRANSPARENT RETROREFLECTIVE DISPLAY SYSTEMS AND METHODS - The present disclosure provides systems and methods to enable significant improvements in display systems utilizing projectors and a retro-reflective (RR) screen through use of transparent or semi-transparent RR material. An aspect of the present disclosure provides methods for optimization of optical properties of the RR material to achieve desired optical transparency parameters. Another aspect of the present disclosure provides methods for specific use cases for flexible, transparent and semi-transparent RR display systems. | 2019-11-07 |
20190339525 | LIVE 3D HOLOGRAPHIC GUIDANCE AND NAVIGATION FOR PERFORMING INTERVENTIONAL PROCEDURES - An interventional procedure can be performed less invasively with live 3D holographic guidance and navigation. Advantageously, the 3D holographic guidance and navigation overcomes the limitations of conventional displays of medical images on standard 2D flat panel screens. The live 3D holographic guidance can utilize a 3D holographic visualization that is derived from complementary imaging modalities (e.g., ultrasound and computed tomography) to provide a complete holographic view of a portion of the patient's body to enable navigation of a tracked interventional instrument/device. | 2019-11-07 |
20190339526 | MULTI-FOCAL DISPLAY SYSTEM AND METHOD - Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise an accommodation tracking module to track an accommodation of a user's eyes, a first variable focus element (VFE) to switch between at least two focal planes, wherein a distance between the two focal planes is relatively consistent, and a second VFE to shift the at least two focal planes based at least in part on the tracked accommodation of the user's eyes. | 2019-11-07 |
20190339527 | VIRTUAL REALITY HEAD-MOUNTED APPARATUS - Methods, systems, and apparatus for a virtual reality (VR) head-mounted apparatus are provided. One of the apparatus includes a convex lens, a camera and a partial-reflection partial-transmission lens. The partial-reflection partial-transmission lens is located on a side of the convex lens towards a user when the user wears the VR head-mounted apparatus, and a lens surface of the partial-reflection partial-transmission lens is disposed obliquely to reflect an infrared image of an eye of the user to the camera. The VR head-mounted apparatus improves the acquisition accuracy for an infrared image of an eye of the user. | 2019-11-07 |
20190339528 | WEARABLE IMAGE MANIPULATION AND CONTROL SYSTEM WITH HIGH RESOLUTION MICRO-DISPLAYS AND DYNAMIC OPACITY AUGMENTATION IN AUGMENTED REALITY GLASSES - A mixed reality display comprising: at least one lens, where the at least one lens has a reflective element, the at least one lens comprising a plurality of pixels; at least one display capable of projecting one or more images onto at least a portion of the at least one lens; and a dynamic opacity system, where the dynamic opacity system is capable of making at least one pixel opaque in the portion of the at least one lens onto which the one or more images are projected, while any portion of the at least one lens onto which no image is projected remains see-through. | 2019-11-07 |
20190339529 | USING PUPIL LOCATION TO CORRECT OPTICAL LENS DISTORTION - The disclosure relates generally to techniques for using information about a user's actual or predicted pupil location for correcting optical distortions that are specific to an optical lens and display assembly through which the user is viewing one or more images. The described techniques may include identifying and mapping optical distortions specific to an optical lens and display assembly, and using such mapped optical distortions to correct images displayed to a wearer or other user receiving images via the assembly, such as based at least in part on pupil location of the wearer or other user. As one example, the one or more optical lens may be mounted inside a head-mounted display (HMD) that also includes a display panel or other image source for an eye of a wearer, and if so one or more pupil tracking mechanisms may be integrated into the HMD. | 2019-11-07 |
20190339530 | SUBSTRATE-GUIDE OPTICAL DEVICE - An optical device, including a light waves-transmitting substrate has two major surfaces and edges, optical means for coupling light into the substrate by total internal reflection, and a plurality of partially reflecting surfaces ( | 2019-11-07 |
20190339531 | Display Apparatus for Virtual Reality - A display apparatus for virtual reality is provided. The display apparatus includes: an image source, configured to output one beam of original light carrying N frames of original virtual images, where N is an integer greater than or equal to 2; and an image extending component, configured to receive the original light, and convert the original light into N beams of target linearly polarized light. | 2019-11-07 |
20190339532 | HEAD-MOUNTED DISPLAY DEVICE - A head-mounted display device includes a wearable assembly, an adjusting module and a control module. The wearable assembly is suitable for wearing to a user's head. The adjusting module is movably coupled to the wearable assembly, and includes a transmission mechanism and a driving element. The transmission mechanism is movably coupled to the wearable assembly, and the driving element is coupled to the transmission mechanism. The control module is electrically connected to the driving element. When the control module outputs a control signal to the driving element, the driving element drives the transmission mechanism to actuate, such that the transmission mechanism drives the wearable assembly along with driving of the driving element to change a girth of the wearable assembly to fit heads of different users. | 2019-11-07 |
20190339533 | AUGMENTED REALITY SYSTEM EYE RELIEF ADJUSTMENT MECHANISM - A head mounted display (HMD) may comprise an adjustable crown band, a crown band circumference adjusting mechanism coupled to the adjustable crown band and configured to adjust a crown band circumference to releasably secure the crown band to the user's crown, an armature including left and right arms, each of the left and right arms mounted at a respective proximal end to corresponding left and right HMD attachment structures, a display mounted at left and right sides to respective distal ends of the left and right arms, and an eye relief distance adjustment mechanism configured to move the left and right arms in a timed manner toward and away from the crown band along a substantially linear path, to thereby adjust an eye relief distance from the display to an eye of a the user when the crown band is fitted on the crown of the user. | 2019-11-07 |
20190339534 | WEARABLE DISPLAY, CASING FOR A WEARABLE DISPLAY, AND MANUFACTURING METHOD FOR A WEARABLE DISPLAY - A wearable display includes a first optical section, a main body, and a jig receiver. The first optical section is capable of emitting light. The main body includes a second optical section that is connected to the first optical section and capable of outwardly emitting the light as image light, and a casing that supports the second optical section. The jig receiver includes a first guide that supports a first protrusion of a jig, a second guide that supports a second protrusion of the jig, and a third guide that supports a third protrusion of the jig. The jig receiver is provided in the casing such that at least two of the first, second, and third guides are spaced apart from each other in the first axis direction and at least two of the first, second, and third guides are spaced apart from each other in the third axis direction. | 2019-11-07 |
20190339535 | AUTOMATIC EYE BOX ADJUSTMENT - The aspects disclosed herein are related to systems, methods, and devices to perform automatic eye box adjustments (for example, those that are implemented in a heads-up display context) for a vehicle-based implementation. The aspects disclosed herein employ either detection of a viewer's eye location, height, position, or a combination thereof to perform said eye box adjustment. Various aspects disclosed herein may also be directed to also adjusting graphical assets (for example, augmented reality content) used in the context of said HUD implementation. | 2019-11-07 |
20190339536 | High-Efficiency Line-Forming Optical Systems and Methods Using A Serrated Spatial Filter - High-efficiency line-forming optical systems and methods that employ a serrated aperture are disclosed. The line-forming optical system includes a laser source, a beam conditioning optical system, a first aperture device, and a relay optical system that includes a second aperture device having the serrated aperture. The serrated aperture is defined by opposing serrated blades configured to reduce intensity variations in a line image formed at an image plane as compared to using an aperture having straight-edged blades. | 2019-11-07 |
20190339537 | Optical System and Light Fixture Using the Same - The present invention provides an optical system and a light fixture using the optical system, the optical system comprising a substrate, a light source mounted on the substrate and including multiple sets of light emitting arrays, a light pipe arranged corresponding to each set of the light emitting arrays, including an input surface, at least one light guiding surface and an output surface, and an optical lens. Additionally, the optical system further comprises honeycomb-like cover including multiple through holes, each through hole sleeved on each lens of the optical lens, a cross section of the through hole matching with a maximum cross section of the lens of the optical lens, and an overall shape of the through holes arranged on the honeycomb-like cover matching with that of the light source arranged on the substrate. On such configuration, uniform light spots can be achieved and light crosstalking can be effectively prevented. | 2019-11-07 |
20190339538 | GLASSES-FREE 3D DISPLAY MOBILE DEVICE, SETTING METHOD OF THE SAME, AND USING METHOD OF THE SAME - Provided are a glasses-free three-dimensional (3D) display device, a setting method of the same, and a using method of the same. The glasses-free 3D display device includes: a display device including a flat panel display; and a 3D viewing cover detachably disposed on the flat panel display, the 3D viewing cover configured to allow images displayed on the flat panel display to be viewed in three dimensions, wherein the display device includes a cover setting program executable by the display device to set setting parameters of the 3D viewing cover. | 2019-11-07 |
20190339539 | THREE DIMENSIONAL VIRTUAL AND AUGMENTED REALITY DISPLAY SYSTEM - A system may comprise a selectively transparent projection device for projecting an image toward an eye of a viewer from a projection device position in space relative to the eye of the viewer, the projection device being capable of assuming a substantially transparent state when no image is projected; an occlusion mask device coupled to the projection device and configured to selectively block light traveling toward the eye from one or more positions opposite of the projection device from the eye of the viewer in an occluding pattern correlated with the image projected by the projection device; and a zone plate diffraction patterning device interposed between the eye of the viewer and the projection device and configured to cause light from the projection device to pass through a diffraction pattern having a selectable geometry as it travels to the eye. | 2019-11-07 |
20190339540 | METHODS AND SYSTEMS FOR EFFICIENT SEPARATION OF POLARIZED UV LIGHT - Methods and systems are provided for separating polarized UV light. In one example, a method may include passing polarized source light through a first prism, the polarized source light including desired light and undesired light, separating the desired light from the fundamental light, and passing the separated desired light through a second prism. The separated desired light which is passed through the second prism may then be further passed through a spatial filter. | 2019-11-07 |
20190339541 | DIFFRACTIVE OPTICAL ELEMENT AND PREPARATION METHOD - A diffractive optical element for a structured light projection module and a method of using the diffractive optical element are described herein. The diffractive optical element is configured to: receive two-dimensional patterned beams and generate multi-order diffractive beams, wherein the two-dimensional patterned beams are emitted from a structured light projection module, the structured light projection module includes a light source comprising a plurality of sub-light sources arranged in a two-dimensional array, and the two-dimensional patterned beams correspond to the two-dimensional array; and project a plurality of two-dimensional patterned beams, wherein each of the plurality of two-dimensional patterned beams creates a corresponding duplicated pattern, and the duplicated patterns form a speckle pattern having uniform speckle density. The two-dimensional patterned beams can overlap with each other, or not overlap with each other. | 2019-11-07 |
20190339542 | LENS DRIVING DEVICE, CAMERA MODULE, AND CAMERA-EQUIPPED DEVICE - This lens driving device comprises an autofocus (AF) driving unit and a shake correction driving unit, wherein a shake correction support member has a pair of power supply suspension wires and a pair of signal suspension wires. While an AF movable unit includes a position detecting magnet, an AF fixation unit includes an AF power source line, a signal line, a coil power source line, and an AF control unit. The AF control unit includes a hole element, and a coil control unit which controls current passing through an AF coil part, and an AF circuit board on which the hole element and the coil control unit are mounted. As a result of contact between a lens holder and a base which has rigidity higher than that of a coil substrate, movement of the AF movable unit toward a formed image in the optical axis is restricted. | 2019-11-07 |
20190339543 | PHOTOTHERMAL MODIFICATION OF HIGH INDEX DIELECTRIC STRUCTURES - There is presented a method for geometrically modifying high-index dielectric structures on a support structure, said method comprising providing a support structure, a first plurality of high-index dielectric structures being supported by the support structure, said method further comprising changing a geometry specifically of high-index dielectric structures within a second plurality of high-index dielectric structures, wherein the second plurality of high-index dielectric structures is a sub-set of the first plurality of high-index dielectric structures, wherein said changing the geometry is carried out by photothermally melting at least a portion of each of the high-index dielectric structures within the second plurality of high-index dielectric structures by irradiating the second plurality of high-index dielectric structures with incident electromagnetic radiation having an incident intensity in a plane of the second plurality of high-index dielectric structures, and thereby exciting resonances associated with each of the high- index dielectric structures within the second plurality of high-index dielectric structures, wherein said support structure comprises a first plurality of topographical features, and wherein the first plurality of high-index dielectric structures are given by high-index dielectric structures on or in said topographical features, and/or holes in a high-index dielectric film, wherein said holes correspond to said topographical features. | 2019-11-07 |
20190339544 | OPHTHALMIC DEVICES CONTAINING UV BLOCKER AND METHODS FOR THEIR PREPARATION - A method for preparing an ophthalmic device containing an ultraviolet (UV) blocker is disclosed. The method involves (a) soaking an ophthalmic device in one or more first solvent solutions to swell the ophthalmic device; (b) soaking the swelled ophthalmic device in one or more second solvents solutions comprising a UV blocker to de-swell the ophthalmic device and entrap the UV blocker in the ophthalmic device, wherein the UV blocker is a benzotriazole and (c) sterilizing the de-swelled ophthalmic device. | 2019-11-07 |
20190339545 | DIFFRACTIVE TRIFOCAL LENS - A diffractive multifocal lens is disclosed, comprising an optical element having at least one diffractive surface, the surface profile comprising a plurality of annular concentric zones. The optical thickness of the surface profile changes monotonically with radius within each zone, while a distinct step in optical thickness at the junction between adjacent zones defines a step height. The step heights for respective zones may differ from one zone to another periodically so as to tailor diffraction order efficiencies of the optical element. In one example of a trifocal lens, step heights alternate between two values, the even-numbered step heights being lower than the odd-numbered step heights. By plotting a topographical representation of the diffraction efficiencies resulting from such a surface profile, step heights may be optimized to direct a desired level of light power into the diffraction orders corresponding to near, intermediate, and distance vision, thereby optimizing the performance of the multifocal lens. | 2019-11-07 |
20190339546 | System and Method for Obtaining and Utilizing Measurements to Enable Customized Eyewear to Be Purchased Online - A system and method for determining the measurements needed to correctly fabricate prescription eyewear for an individual who is purchasing the eyewear. The individual is provided with an initial set of frames. The initial set of frames is fitted to the requirements of the individual to obtain a fitted frame. An eye exam is also conducted to obtain a proper lens prescription for the fitted frames. The individual is imaged while the fitted frames are being worn. This creates reference images. At some point, the individual may select a subsequent set of frames. Once the subsequent set of frames is selected, a retailer recalls the reference images and obtains fitting measurements from the reference images. The online retailer can also recall the lens prescription for the initial fitted frames. Utilizing the fitting measurements, the retailer can custom fit the subsequent set of frames. | 2019-11-07 |
20190339547 | BIAS CONTROL OF OPTICAL MODULATORS - An optical waveguide modulator with automatic bias control is disclosed. A portion of the modulator light is mixed with reference light and converted to one or more electrical feedback signals. An electrical feedback circuit controls the modulator bias responsive to the feedback signals. | 2019-11-07 |
20190339548 | METHODS FOR COMPUTATION-FREE WIDEBAND SPECTRAL CORRELATION AND ANALYSIS - An apparatus for generating a set of spectral correlation coefficients of an input signal includes: a master laser configured to generate an optical frequency comb signal; a first optical modulator configured to modulate the optical frequency comb signal with an input signal to generate a plurality of spectral copies of the input signal; a dispersive element configured to delay the plurality of spectral copies of the input signal by a wavelength-dependent time delay; a second optical modulator configured to modulate the delayed plurality of spectral copies with a conjugate of the input signal; and an optical comb filter configured to integrate the conjugate modulated plurality of spectral copies of the input signal to generate a set of cyclic autocorrelation coefficients. | 2019-11-07 |
20190339549 | PHASE MODULATOR, CONTROL METHOD FOR PHASE MODULATOR, AND FRINGE PROJECTOR APPARATUS - A fringe projector apparatus includes: a phase modulator having a first waveguide, a second waveguide, and a plurality of heaters including a first heater and a second heater, wherein the first and second waveguides and the plurality of heaters are provided on a single substrate, and wherein the first heater heats the first waveguide and the second heater heats a position away from the first waveguide; a light source that generates a light beam to be input to the first waveguide and the second waveguide; and a controller that controls a phase difference between the first waveguide and the second waveguide by changing an electric power consumption of the first heater under a condition that a total electric power consumption of the plurality of heaters is constant. | 2019-11-07 |
20190339550 | QUANTUM CONFINED NANOSTRUCTURES WITH IMPROVED HOMOGENEITY AND METHODS FOR MAKING THE SAME - A method that includes: providing a substrate including a layer of a crystalline material having a first surface; and exposing the first surface to an environment under conditions sufficient to cause epitaxial growth of a layer of a deposition material on the first surface, wherein exposing the first surface to the environment includes illuminating the substrate with light at a first wavelength while causing the epitaxial growth of the layer of the deposition material. The first surface includes one or more discrete growth sites at which an epitaxial growth rate of the quantum confined nanostructure material is larger than areas of the first surface away from the growth sites by an amount sufficient so that the deposition material forms a quantum confined nanostructure at each of the one or more discrete growth sites. | 2019-11-07 |
20190339551 | Integrated Electro-Optical Device - A device, includes: a ring waveguide; a diode comprising a junction extending at least partly in the ring waveguide; and a first circuit configured to supply a signal representative of a leakage current in the diode. | 2019-11-07 |
20190339552 | DISPLAY DEVICE, DISPLAY METHOD THEREOF, NEAR-TO-EYE DISPLAY DEVICE, AND DISPLAY METHOD THEREOF - A display device and a display method thereof are provided. The display device includes a display panel and at least one optical device arranged at a light-exiting side of the display panel. A light beam emitted from the display panel is a linearly-polarized, collimated light beam. The optical device includes a plurality of optical units independent of each other and corresponding to pixel units of the display panel in a one-to-one correspondence manner. Each optical unit is capable of refracting the light beam emitted from the display panel at an adjustable angle. Collimated light beams from the adjacent optical units have different emergent angles so that the light beams emitted from the display panel are converged at two viewing points, so as to display a virtual image with a spatial depth. | 2019-11-07 |
20190339553 | DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A display device includes: a semiconductor layer including source (SR), drain (DR), and channel (CR) regions; a first insulating layer (FIL) on the semiconductor layer; a gate line on the FIL and overlapping the CR; a second insulating layer (SIL) on the gate line; a first contact hole (FCH) in the FIL and the SIL, and exposing the SR; a data line on the SIL and contacting the SR; a third insulating layer (TIL) on the data line; a second contact hole (SCH) in the first to third insulating layers and exposing the DR; a drain electrode on the TIL and contacting the DR; a color filter on the TIL and not overlapping the SCH; a pixel electrode (PE) on the color filter and contacting the drain electrode; and an organic layer on the TIL and the PE. Upper surfaces of the organic layer and the PE are substantially coplanar. | 2019-11-07 |
20190339554 | DISPLAY PANEL - A display panel includes a substrate, at least one first transistor, and at least one second transistor. The substrate includes at least one reflective region and at least one transmissible region. The first transistor is configured on the substrate and located on the corresponding reflective region. Each of the first transistors includes a first active layer. The second transistor is configured on the substrate and located on the corresponding transmissible region. Each of the second transistors includes a second active layer. A material of the first active layer is different from a material of the second active layer. | 2019-11-07 |
20190339555 | CURVED DISPLAY PANEL - A curved liquid, crystal panel | 2019-11-07 |
20190339556 | CURVED DISPLAY PANEL - A curved display panel includes a display surface curved about an axis of curvature. The curved display panel includes first and second substrates, a switching component, extending portions, and a spacer portion. The first and the second substrates include plate surfaces disposed to face each other with a gap therebetween. The switching component includes a source electrode and a drain electrode. The extending portions extend from elements of the switching component except for the drain electrode. The extending portions are disposed outside an arrangement area in which the switching component is disposed. The extending portions are adjacent to the switching component in a curved direction perpendicular to the axis of curvature and along the display surface. The spacer portion is disposed on the second substrate to hold the gap. The spacer portion overlaps the switching component or one of the extending portions adjacent to the switching component. | 2019-11-07 |