Patents Examined by Michelle R. Connelly
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Patent number: 11656469Abstract: A light-guiding device includes a pair of light-guiding portions, a pair of light-incident portions that causes image light to be incident on the pair of light-guiding portions respectively, and a pair of light-emitting portions that emit image light, guided by the pair of light-guiding portions, to outside respectively, in which a pair of optical members including the pair of light-guiding portions are coupled by a central member having light transmissivity, and separate overcoat layers are provided at the optical member on one side and at the optical member on another side with respect to an approximate center of the central member.Type: GrantFiled: September 14, 2021Date of Patent: May 23, 2023Assignee: SEIKO EPSON CORPORATIONInventors: Toshiaki Miyao, Masayuki Takagi, Takashi Takeda, Tokito Yamaguchi
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Optical splitter chip, optical splitter component, optical splitter apparatus, and optical fiber box
Patent number: 11644619Abstract: One example optical splitter chip includes a substrate. The substrate is configured with an input port, configured to receive first signal light, an uneven optical splitting unit, configured to split the first signal light into at least second signal light and third signal light, where optical power of the second signal light is different from optical power of the third signal light, a first output port, configured to output the second signal light, an even optical splitting unit group, including at least one even optical splitting unit, configured to split the third signal light into at least two channels of equal signal light, where optical power of the at least two channels of equal signal light is the same, and at least two second output ports, which are in a one-to-one correspondence with the at least two channels of equal signal light.Type: GrantFiled: February 14, 2022Date of Patent: May 9, 2023Assignee: Huawei Technologies Co., Ltd.Inventors: Biao Qi, Wei Xiong, Sanxing Li -
Patent number: 11630275Abstract: Embodiments of an optical fiber cable are provided. The optical fiber cable includes an outer jacket, an inner jacket, a porous insulating layer, and at least one optical fiber. The outer jacket has a first thickness between its inner surface and its outer surface. The inner jacket has a second thickness between its inner surface and its outer surface. The inner jacket is disposed within the outer jacket. The porous insulating layer is disposed between the inner jacket and the outer jacket. The porous insulating layer is configured to reduce the transfer of heat to the inner jacket during combustion of the outer jacket. The optical fiber is disposed within the inner jacket. In the optical fiber cable, the first thickness is less than the second thickness, and each of the outer jacket and the inner jacket include at least one flame retardant additive.Type: GrantFiled: August 25, 2022Date of Patent: April 18, 2023Assignee: CORNING RESEARCH & DEVELOPMENT CORPORATIONInventors: Harold Edward Hudson, II, William Carl Hurley
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Patent number: 11619858Abstract: An optical device includes a first substrate, a second substrate, a plurality of separation walls, one or more optical waveguides, and one or more spacers. The first substrate has a surface which extends in a first direction and a second direction intersecting the first direction. The second substrate faces the first substrate. The plurality of separation walls are positioned between the first substrate and the second substrate and extend in the first direction. The one or more optical waveguides are positioned between the first substrate and the second substrate and include one or more dielectric members which are positioned between the plurality of separation walls and which extend in the first direction. The one or more spacers are directly or indirectly sandwiched between the first substrate and the second substrate and positioned around the one or more optical waveguides.Type: GrantFiled: January 28, 2021Date of Patent: April 4, 2023Assignee: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.Inventors: Takaiki Nomura, Hiroyuki Takagi, Masahiko Tsukuda, Yasuhisa Inada, Taku Hirasawa
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Patent number: 11604397Abstract: Aspects of the present disclosure describe optical phased array structures and devices in which hyperbolic phase envelopes are employed to create focusing and diverging emissions in one and two dimensions. Tuning the phase fronts moves focal point spot in depth and across the array. Grating emitters are also used to emit light upward (out of plane). Adjusting the period of the gratings along the light propagation direction results in focusing the light emitted from the gratings. Changes in the operating wavelengths employed moves the focal spot along the emitters.Type: GrantFiled: April 27, 2021Date of Patent: March 14, 2023Assignee: Analog Photonics LLCInventors: Ehsan Hosseini, Michael Watts
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Patent number: 11598848Abstract: Aspects of the disclosure provide a system and method used for time-of-flight lidar applications. Such systems and methods include a laser and pulse clipper which produces a shuttering effect to reduce the instantaneous output power from the pulse clipper. Accordingly the output from the pulse clipper is more suitable for time-of-flight lidar applications than that initially produced by the laser. This can allow for lasers which may otherwise exceed eye safety limits to be used for time-of-flight lidar applications without exceeding the eye safety limits.Type: GrantFiled: September 6, 2019Date of Patent: March 7, 2023Assignee: HUAWEI TECHNOLOGIES CO., LTD.Inventors: Dominic John Goodwill, Patrick Dumais
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Patent number: 11592612Abstract: In some implementations, a waveguide may comprise an inner core to receive a first beam and an outer core surrounding the inner core to receive a second beam that is displaced from the first beam by an offset. The outer core may comprise a beam guiding region that rotationally expands over a length of the waveguide into an annulus that concentrically surrounds the inner core or a partial annulus that partially surrounds the inner core. For example, the beam guiding region may be defined by one or more low refractive index features that have a varied orientation and/or a varied shape over the length of the waveguide such that the second beam enters the waveguide as an offset beam and exits from the waveguide as a ring-shaped beam or a partial ring-shaped beam.Type: GrantFiled: March 2, 2021Date of Patent: February 28, 2023Assignee: Lumentum Operations LLCInventors: Patrick Gregg, Martin H. Muendel, Richard D. Faulhaber, James J. Morehead, Jeff Gregg
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Patent number: 11592616Abstract: The present disclosure provides an optical fibre (100). The optical fibre (100) includes a glass core region (102). The glass core region (102) has a core relative refractive index profile. The core relative refractive index profile is a super Gaussian profile. In addition, the optical fibre (100) includes a glass cladding region (108) over the glass core region (102). The optical fibre (100) has at least one of a mode field diameter in a range of 8.7 micrometers to 9.7 micrometers at wavelength of 1310 nanometers and an attenuation up to 0.18 dB/km. The optical fibre (100) has at least one of macro-bend loss up to 0.5 decibel per turn corresponding to wavelength of 1550 nanometer at bending radius of 7.5 millimeter. The optical fibre (100) has a macro-bend loss up to 1.0 decibel per turn corresponding to wavelength of 1625 nanometer at bending radius of 7.5 millimeter.Type: GrantFiled: May 11, 2021Date of Patent: February 28, 2023Assignee: Sterlite Technologies LimitedInventors: Srinivas Munige, Apeksha Malviya, Anand Pandey
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Patent number: 11585991Abstract: An electro-optical system, and method for making the electro-optical system. The electro-optical system includes a Photonic Integrated Circuit (PIC) having a laser source located on the PIC, a fiberless optical coupler located on the PIC. The fiberless optical coupler is configured to be coupled to a fiber array. The electro-optical system also includes an optical element, and a mechanical aligner. The optical element is aligned with the fiber array, via the mechanical aligner, for a light from the laser source to transmit in between the fiber array and the PIC through the optical element, when the fiberless optical coupler is coupled to the fiber array.Type: GrantFiled: February 26, 2020Date of Patent: February 21, 2023Assignee: Teramount Ltd.Inventors: Abraham Israel, Hesham Taha
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Patent number: 11579363Abstract: An integrated optical beam steering device includes a planar Luneburg lens that collimates beams from different inputs in different directions within the lens plane. It also includes a curved (e.g., semi-circular or arced) grating coupler that diffracts the collimated beams out of the lens plane. The beams can be steered in the plane by controlling the direction along which the lens is illuminated and out of the plane by varying the beam wavelength. Unlike other beam steering devices, this device can operate over an extremely wide field of view—up to 180°—without any aberrations off boresight. In other words, the beam quality is uniform in all directions, unlike with aplanatic lenses, thanks to the circular symmetry of the planar Luneburg lens, which may be composed of subwavelength features. The lens is also robust to misalignment and fabrication imperfections and can be made using standard CMOS processes.Type: GrantFiled: October 8, 2021Date of Patent: February 14, 2023Assignee: Massachusetts Institute of TechnologyInventors: Josue Lopez, Samuel Kim, Jamison Sloan, Boris Kharas, Jeffrey Scott Herd, Marin Soljacic, Cheryl Marie Sorace-Agaskar, Suraj Deepak Bramhavar, Steven Glenn Johnson, George Barbastathis
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Patent number: 11573388Abstract: The present disclosure incudes a fiber optic cable having a conduit including a conduit wall defining a conduit passage that extends longitudinally through the conduit. The conduit also includes an adhesive injection port defined through the conduit wall and at least one optical fiber within the conduit passage. The cable further includes a fiber lock including an adhesive volume in communication with the adhesive injection port. The adhesive volume includes a main adhesive volume positioned within the conduit passage and bonded to the optical fiber. The main adhesive volume is fixed to prevent longitudinal movement relative to the conduit.Type: GrantFiled: May 24, 2021Date of Patent: February 7, 2023Assignee: CommScope Technologies LLCInventors: Gregory Robert Mosier, Scott L. Carlson, Yu Lu, Ryan Kostecka, Samuel Taylor Finnegan, Joseph Michael Marrazzo
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Patent number: 11575228Abstract: An apparatus includes a strain relief formed in helical shape and formed with a U-shaped channel. The strain relief can be used around a cable of a component or a spool extension of a fiber tray.Type: GrantFiled: July 27, 2020Date of Patent: February 7, 2023Assignee: Raytheon CompanyInventors: Peter M. Willey, Curtis B. Carlsten, John C. Cochran
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Patent number: 11567268Abstract: A fiber optic adapter assembly is provided with a floating adapter module. The adapter assembly includes a housing, an adapter module, and a single biasing member disposed in the housing and concentrically aligned with the adapter module. The single biasing member can bias the adapter module in a direction toward an end of the housing and be compressible in the opposite direction toward the other end of the housing.Type: GrantFiled: May 6, 2022Date of Patent: January 31, 2023Assignee: Commscope Connectivity Belgium BVBAInventor: Philippe Coenegracht
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Patent number: 11567266Abstract: Structures for a grating coupler and methods of fabricating a structure for a grating coupler. The structure includes a grating coupler having a central portion and edge portions. The central portion and the edge portions define a sidewall, and the central portion and the edge portions have a first longitudinal axis along which the edge portions are arranged in a spaced relationship. Each edge portion projects from the sidewall at an angle relative to the first longitudinal axis. A waveguide core is optically coupled to the grating coupler. The first longitudinal axis is aligned in a first direction, and the waveguide core has a second longitudinal axis that is aligned in a second direction different from the first direction.Type: GrantFiled: December 15, 2021Date of Patent: January 31, 2023Assignee: GlobalFoundries U.S. Inc.Inventors: Judson Holt, Yusheng Bian, Qizhi Liu, Elizabeth Strehlow
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Patent number: 11567275Abstract: An optical module with optical fibers is intended to be able to be easily sucked and conveyed, and mounted on another substrate. An optical module of the present disclosure includes an optical device to which optical fibers are optically connected; and a carrier including a substrate and an adhesive layer formed at a surface of the substrate, and a part of the optical device and a part of the optical fibers are adhesively fixed on a surface of the adhesive layer. The optical device may include ball grid array shaped electrodes. The carrier may be provided with a plurality of holes.Type: GrantFiled: August 14, 2019Date of Patent: January 31, 2023Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Yuriko Kawamura, Yusuke Nasu, Kiyofumi Kikuchi, Shunichi Soma
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Patent number: 11567267Abstract: A fiber optic adapter is disclosed. The fiber optic adapter includes a main body configured to receive a first fiber optic connector through a first end and a second fiber optic connector through a second end for mating with the first fiber optic connector. The adapter includes a ferrule alignment structure located within an axial cavity of the main body, the ferrule alignment structure including a sleeve mount and a ferrule sleeve, the sleeve mount including an axial bore and at least one latching hook extending from a center portion of the sleeve mount toward the first end of the main body and at least one latching hook extending from the center portion toward the second end of the main body, the latching hooks configured to flex for releasably latching the first and second fiber optic connectors to the fiber optic adapter.Type: GrantFiled: January 31, 2022Date of Patent: January 31, 2023Assignee: CommScope Technologies LLCInventor: Keith Quinten Nelson
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Patent number: 11561341Abstract: The present disclosure provides an optical fibre. The optical fibre includes a core extended from a central longitudinal axis to a first radius r1. Further, the optical fibre includes a first trench region extended from a second radius r2 to a third radius r3, a second trench region extended from the third radius r3 to a fourth radius r4 and a cladding region extended from the fourth radius r4 to a fifth radius r5.Type: GrantFiled: July 29, 2020Date of Patent: January 24, 2023Inventors: Apeksha Malaviya, Srinivas Reddy, MalleshwaraRao Lanke, Anand Kumar Pandey
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Patent number: 11554977Abstract: A method for making an optical fiber device may include using a three-dimensional (3D) printer to generate a preform body including an optical material. The preform body may have a 3D pattern of voids therein defining a 3D lattice. The method may further include drawing the preform body to form the optical fiber device.Type: GrantFiled: November 25, 2019Date of Patent: January 17, 2023Assignee: HARRIS CORPORATIONInventors: Christopher A. Corey, Susanne M. Lee
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Patent number: 11550099Abstract: There is set forth herein a method including building a first photonics structure using a first wafer having a first substrate, wherein the building the first photonics structure includes integrally fabricating within a first photonics dielectric stack one or more photonics device, the one or more photonics device formed on the first substrate; building a second photonics structure using a second wafer having a second substrate, wherein the building the second photonics structure includes integrally fabricating within a second photonics dielectric stack a laser stack structure active region and one or more photonics device, the second photonics dielectric stack formed on the second substrate; and bonding the first photonics structure and the second photonics structure to define an optoelectrical system having the first photonics structure bonded the second photonics structure.Type: GrantFiled: September 19, 2019Date of Patent: January 10, 2023Assignee: THE RESEARCH FOUNDATION FOR THE STATE UNIVERSITY OF NEW YORKInventors: William Charles, Douglas Coolbaugh, Douglas La Tulipe, Gerald L. Leake, Jr.
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Patent number: 11543659Abstract: An imaging apparatus for conveying a virtual image superimposed within a view of an ambient environment has a waveguide having first and second surfaces. An in-coupling diffractive optic on one of the planar surfaces is disposed to direct image-bearing light beams into the waveguide. An out-coupling diffractive optic on one of the planar surfaces of the waveguide is disposed to direct the image-bearing light beams from the waveguide toward a viewer eyebox. An outer cover protects as least part of the waveguide from undesirable environmental influences of an ambient environment while supporting views of the ambient environment from the eyebox. A circular polarizer interposed between waveguide and the outer cover blocks the return of stray light into the waveguide.Type: GrantFiled: January 28, 2019Date of Patent: January 3, 2023Assignee: Vuzix CorporationInventor: Robert J. Schultz