Patents Examined by Jennifer D. Carruth
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Patent number: 11852916Abstract: A display device and method of manufacturing the same, in which the display device includes: a first substrate; a transflective layer disposed on a surface of the first substrate; a wavelength conversion layer disposed on the transflective layer; a capping layer disposed on the wavelength conversion layer; a first polarizing layer disposed on the capping layer; and a second polarizing layer disposed on the other surface of the first substrate. The first polarizing layer and the second polarizing layer have different polarization directions.Type: GrantFiled: November 16, 2022Date of Patent: December 26, 2023Assignee: Samsung Display Co., Ltd.Inventors: Seon Tae Yoon, Jung Hyun Kwon, Ki Soo Park, Hae Il Park, Moon Jung Baek
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Patent number: 11852805Abstract: A wave scanning optic is formed to have an angular reflectance or refraction that produces a uniform line scan during rotation of the optic, such that the optic is operable for seamless multidirectional scanning. The wave scanning optic includes a rotatable body defining a central axis of rotation about which the rotatable body rotates during scanning, and an optical surface formed on the rotatable body and having a wavy pattern defined by one or more lobes that protrude outwardly from the rotatable body. The optical surface has a continuous pattern with an angular frequency that varies along a radial distance from the central axis of rotation. The optical surface is configured to emit and/or receive light in one or more incident directions.Type: GrantFiled: January 5, 2021Date of Patent: December 26, 2023Assignee: Raytheon CompanyInventors: Curtis Kyhl, Mark Noethen
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Patent number: 11846888Abstract: Disclosed herein is a method that combines two different hologram origination processes in a single photoresist layer by using an interlayer to transfer structures exposed by electron beam lithography into overlapped with dot-matrix hologram areas, and fabricated holographic structures are replicated in multilayer polymer films. Dot-matrix technique is low cost process, which has high origination speed and can be used for the patterning of large areas of holograms with high diffraction efficiency. Electron beam lithography allows the formation of high resolution structures. The method allows combining these two technologies so that the final security device could contain electron beam patterned high resolution diffraction gratings, computer generated holograms, as well as dot-matrix laser patterned large hologram areas with high diffraction efficiency, providing an increased level of protection.Type: GrantFiled: February 18, 2021Date of Patent: December 19, 2023Assignee: Kaunas University of TechnologyInventors: Viktoras Grigaliunas, Sigitas Tamulevicius, Mindaugas Andrulevicius, Tomas Tamulevicius, Egle Fataraite-Urboniene, Pranas Narmontas, Tomas Klinavicius, Dalius Jucius, Mindaugas Juodenas
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Patent number: 11846770Abstract: A light deflector 130 includes: a control unit 106 configured to generate a resonant drive signal for resonantly driving an MEMS mirror 133, and a non-resonant drive signal for non-resonantly driving the MEMS mirror 133; a resonant sensor 144 configured to detect the resonant drive of the MEMS mirror 133 and generate a resonant sensor signal; and a sensor signal processing unit 103 configured to acquire a phase difference between the resonant drive signal generated by the control unit 106 and the resonant sensor signal, in a case where the MEMS mirror 133 is resonantly driven in a Y-axis direction, also the MEMS mirror 133 is non-resonantly driven in an X-axis direction, and scanning is performed. The control unit 106 calculates an amplitude of the non-resonant drive of the MEMS mirror 133 on the basis of a change in the above phase difference.Type: GrantFiled: January 19, 2021Date of Patent: December 19, 2023Assignee: STANLEY ELECTRIC CO., LTD.Inventor: Ken Nishioka
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Patent number: 11841683Abstract: A hologram for an illumination device for vehicles and a corresponding illumination device are provided. The hologram has a plurality of holographic structures designed for a respectively associated wavelength, wherein the holographic structures have diffraction properties that are identical among one another.Type: GrantFiled: July 4, 2019Date of Patent: December 12, 2023Assignee: Carl Zeiss Jena GmbHInventor: Daniel Thomae
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Patent number: 11835922Abstract: Provided is an augmented reality (AR) device based on a waveguide with a holographic diffractive grating structure and an apparatus for recording the holographic diffractive grating structure. The apparatus includes a light source, a beam splitter, a first amplitude filter and a first triangular prism that are arranged on a path of a first light beam, and a second amplitude filter and a second triangular prism that are arranged on a path of a second light beam, in which a first part of the first light beam passes through the first triangular prism without attenuation, a second part of the first light beam passes through the first triangular prism after being attenuated, and the second light beam passes through the second triangular prism after being attenuated, and the holographic diffractive grating structure is recorded between the first triangular prism and the second triangular prism.Type: GrantFiled: August 25, 2021Date of Patent: December 5, 2023Assignee: SAMSUNG ELECTRONICS CO., LTD.Inventors: Nikolay Victorovich Muravev, Vladimir Nikolaevich Borisov, Mikhail Vyacheslavovich Popov
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Patent number: 11835730Abstract: Embodiments of the disclosure provide a collimating scanner for an optical sensing system, a method for fabricating the collimating scanner, and a transmitter that includes the collimating scanner. An exemplary collimating scanner may include a scanning mirror configured to steer a light beam towards an object. The collimating scanner may also include a Fresnel zone plate profile patterned on the scanning mirror configured to collimate the light beam. The disclosed collimating scanner eliminates the use a separate collimating lens and thus improves the form factor of the optical sensing system.Type: GrantFiled: December 29, 2020Date of Patent: December 5, 2023Assignee: BEIJING VOYAGER TECHNOLOGY CO., LTD.Inventors: Youmin Wang, Yue Lu
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Patent number: 11822110Abstract: Technology is described for methods and systems for a diffractive optic device (525) for holographic projection. The diffractive optic device can include a lens (535) configured to convey a hologram. The lens (535) further comprises a patterned material (510) formed with an array of cells having a non-planar arrangement of cell heights extending from a surface of the patterned material. The lens further optionally comprises a filling material (530) to fill gaps on both surfaces of the patterned material.Type: GrantFiled: July 19, 2018Date of Patent: November 21, 2023Assignee: University of Utah Research FoundationInventor: Rajesh Menon
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Patent number: 11815738Abstract: A device for elastic pivoting about two orthogonal axes as well a method of manufacturing thereof using additive manufacturing processes. The device can be used in a projector, such as a back projector, a scanner such as a laser scanner, or other forms of displays, or a telescope etc. The device includes an inner frame and an outer frame. First and second flexible spring elements extend out of the plane in which the inner frame lies and third and fourth flexible spring elements extend out of the plane in which the outer frame lies.Type: GrantFiled: January 14, 2019Date of Patent: November 14, 2023Assignee: BARCO N.V.Inventors: Winter Van Rafelghem, Bart Van Den Bossche
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Patent number: 11806795Abstract: The present disclosure relates to end milling methods for making microstructures, a tool comprising such microstructures, the microstructures, and replications thereof, where the microstructures are part of a structured surface configured as a security article. Some of the microstructures are configured differently from others to define an optically detectable indicia in the structured surface. Microstructures in a first group may for example differ from microstructures in a second group in terms of one or more of size, orientation, cube corner type, and dihedral angle value(s), to define the indicia or a portion thereof. The microstructures may comprise full or truncated cube corner elements, and the article may be a retroreflective sheeting.Type: GrantFiled: February 5, 2018Date of Patent: November 7, 2023Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Nelson D. Sewall, Christopher S. Grinde
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Patent number: 11803057Abstract: An optical device includes a light source section configured to emit light; a converging reflector configured to converge and reflect the light from the light source section to an irradiation surface having a curvature; and a position detector configured to detect a light-receptive position of the light reflected from the irradiation surface.Type: GrantFiled: March 6, 2020Date of Patent: October 31, 2023Assignee: RICOH COMPANY, LTD.Inventors: Suguru Sangu, Tatsuya Shimokawa, Kazuhiko Adachi, Shu Tanaka, Shuichi Suzuki
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Patent number: 11796791Abstract: Described are scanning micromirror devices, methods of making scanning micromirror devices, two-dimensional optical scanning systems that incorporate scanning micromirror devices, and methods of projecting light and images using two-dimensional optical scanning systems. The disclosed two-dimensional optical scanning systems can incorporate a first scanning micromirror device oscillating at a relatively higher frequency, which directs reflected light onto a second scanning micromirror device oscillating at a relatively lower frequency, which directs reflected light for projection.Type: GrantFiled: January 15, 2021Date of Patent: October 24, 2023Assignee: Magic Leap, Inc.Inventors: Julien Gamet, Stephan Arthur Gamper
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Patent number: 11794649Abstract: A rearview device for a motor vehicle includes a moveable head assembly, an actuator assembly having a fixed part and a moveable part, the moveable part being attached to the head assembly, a motor cradle configured to attach the actuator assembly to the moveable head assembly. A method of assembling a rearview device comprises providing the rearview device and attaching the actuator assembly to the moveable head assembly using the motor cradle.Type: GrantFiled: December 7, 2021Date of Patent: October 24, 2023Assignee: SMR Patents S.à.r.l.Inventors: Andrew Lettis, Graham Rehill, Callum Scott-Collins
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Patent number: 11782273Abstract: Optical systems having comb-shifted sets of holograms across different regions of a grating medium are disclosed. A first set of holograms may be formed in a first region of the grating medium and a second set of holograms may be formed in a second region of the grating medium. Each of the holograms in the first set may have a different respective grating frequency from a first set of grating frequencies. Each of the holograms in the second set may have a different respective grating frequency from a second set of grating frequencies. The second set of grating frequencies may be located within adjacent frequency gaps between the grating frequencies in the first set of grating frequencies. Comb-shifted sets of holograms may be used to perform pupil equalization, output coupling, input coupling, cross coupling, or other operations.Type: GrantFiled: September 27, 2018Date of Patent: October 10, 2023Assignee: Akonia Holographics LLCInventors: Adam Urness, Mark R. Ayres, Jonathan Pfeiffer, Friso Schlottau, Kenneth E. Anderson
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Patent number: 11782266Abstract: A method of dispersion compensation in an optical device is disclosed. The method may include identifying a first hologram grating vector of a grating medium of the optical device. The first hologram grating vector may correspond to a first wavelength of light. The method may include determining a probe hologram grating vector corresponding to a second wavelength of light different from the first wavelength of light. The method may also include determining a dispersion-compensated second hologram grating vector based at least in part on the probe hologram grating vector and the first hologram grating vector. A device for reflecting light is disclosed. The device may include a grating medium and a grating structure within the grating medium. The grating medium may include a dispersion compensated hologram.Type: GrantFiled: March 5, 2021Date of Patent: October 10, 2023Assignee: Akonia Holographics LLCInventors: Mark R. Ayres, Adam Urness, Kenneth E. Anderson, Friso Schlottau
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Patent number: 11782384Abstract: There are provided volume holograms and combinations of lenticular lenses and holograms in particular for security applications. In embodiments, a volume hologram comprises a holographic medium (102) including a first optical interference structure which, upon illumination, replays a first image (110); wherein the first image includes a lenticular lens layer (111) including an array of lenticules and a lenticular image layer (113) including first (114) and second (115) interlaced images corresponding with the array of lenticules.Type: GrantFiled: October 22, 2018Date of Patent: October 10, 2023Assignee: H010 LimitedInventors: Charles Franklin Gale, Martin John Richardson
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Patent number: 11774748Abstract: A scanline curvature correction mechanism includes a holding mechanism to extend in a main scanning direction and hold an optical element in the main scanning direction, a pressing member provided near a center of the optical element in the main scanning direction and press the optical element of the optical scanning device in the sub-scanning direction, and a curvature adjustment mechanism provided on an opposite side of the pressing member with the optical element interposed therebetween and to adjust a curvature of the optical element in the sub-scanning direction. The curvature adjustment mechanism includes an eccentric cam to rotate around a rotation axis parallel to an optical axis of the optical element and include a cam portion of which an outer peripheral surface is eccentric with respect to the rotation axis, and a fixing mechanism to stepwisely fix an angular position of rotation of the eccentric cam.Type: GrantFiled: June 2, 2021Date of Patent: October 3, 2023Assignee: TOSHIBA TEC KABUSHIKI KAISHAInventor: Yasushi Kuribayashi
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Patent number: 11768461Abstract: A method of manufacturing a holographic optical element, including: irradiating a first surface of a photosensitive substrate with a first layer, and irradiating a second surface of the photosensitive substrate with a second laser. The light emitted by the first laser is spread in an irradiation direction and the light emitted by the second laser is collected in the irradiation direction to form a plurality of groups and a plurality of overlapping angles formed by a progress direction of the light emitted by the first laser and the progress direction of the light emitted by the second laser at a predetermined location of a photosensitive area, and each of the plurality of the overlapping angles are different from each other. A display device including the holographic optical element measured using this method.Type: GrantFiled: September 10, 2019Date of Patent: September 26, 2023Assignee: LG CHEM, LTD.Inventors: Dae Han Seo, Jae Jin Kim, Min Soo Song, Bu Gon Shin
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Patent number: 11768463Abstract: Provided are a method of displaying a digital holographic image and a digital hologram display apparatus, the method including generating and converting a digital hologram, recording the digital hologram in a spatial light modulator, radiating coherent parallel light to the spatial light modulator, removing an aliasing noise image, and implementing a reconstructed image reconstructed by the spatial light modulator.Type: GrantFiled: June 25, 2020Date of Patent: September 26, 2023Assignee: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventor: Byung Gyu Chae
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Patent number: 11762133Abstract: Retroreflective materials and articles are enabled that increase the retroreflectivity of reflective materials or articles for roadway, automotive, and safety purposes by incorporating retroreflective elements that exhibit near-ideal Total Internal Reflection (TIR).Type: GrantFiled: September 6, 2019Date of Patent: September 19, 2023Assignee: Vergence Automation, Inc.Inventor: James E. Retterath