Patents Assigned to ANALOG PHOTONICS LLC
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Publication number: 20240142623Abstract: Modulation of a frequency of a transmitted optical wave includes: at least a first and second slopes for respective frequency sweeps associated with respective points in at least one of a first or second frame. A computed range and a computed velocity are determined based on combining first partial data derived from at least one measurement associated with a first backscattered portion of the transmitted optical wave with second partial data derived from at least one measurement associated with a second backscattered portion of the transmitted optical wave. The first backscattered portion is received during a frequency sweep at the first slope associated with a first point in the first frame. The second backscattered portion is received during a frequency sweep at the second slope associated with a second point in the first frame different from the first point or associated with at least one point in the second frame.Type: ApplicationFiled: October 27, 2023Publication date: May 2, 2024Applicant: Analog Photonics LLCInventors: Peter Nicholas Russo, Michael Robert Watts, Matthew Byrd
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Publication number: 20240142698Abstract: An optical coupler in a photonic chip is configured to couple an optical port to an array of optical phase shifters in the chip. An optical amplifier module is optically coupled to a portion of the chip to receive phase shifted optical waves, and is configured to: provide, after propagation of the phase shifted optical waves through different respective gain regions, amplified optical waves that optically interfere with each other starting at an emission plane to form an optical phased array output beam, and provide an arrangement of the gain regions such that (1) at least two phase shifted optical waves propagating through adjacent gain regions have optical path lengths between the optical port and the emission plane that are substantially equal to each other, and (2) a pitch of the gain regions is substantially equal to a pitch of the amplified optical waves at the emission plane.Type: ApplicationFiled: October 26, 2023Publication date: May 2, 2024Applicant: Analog Photonics LLCInventors: Michael Robert Watts, Matthew Byrd, Christopher Vincent Poulton
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Patent number: 11960117Abstract: An apparatus comprises: a photonic integrated circuit comprising an optical phased array, a first focusing element at a fixed position relative to the optical phased array and configured to couple an optical beam to or from the optical phased array, and a second focusing element at a fixed position relative to the first focusing element and configured to couple the optical beam to or from the first focusing element. At least one of the first or second focusing element is externally coupled to the photonic integrated circuit, and the first and second focusing elements have different effective focal lengths.Type: GrantFiled: May 10, 2022Date of Patent: April 16, 2024Assignee: Analog Photonics LLCInventors: Michael Robert Watts, Katia Shtyrkova
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Patent number: 11960006Abstract: Aspects of the present disclosure describe wavelength division multiplexed LiDAR systems, methods, and structures that advantageously provide a wide field of view without employing lasers having a large tuning range.Type: GrantFiled: June 24, 2021Date of Patent: April 16, 2024Assignee: Analog Photonics LLCInventors: Ehsan Hosseini, Michael Watts, Christopher Poulton, Diedrik Vermeulen
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Patent number: 11960192Abstract: An optical phase shifter may include a waveguide core that has a top surface, and a semiconductor contact that is laterally displaced relative to the waveguide core and is electrically connected to the waveguide core. A top surface of the semiconductor contact is above the top surface of the waveguide core. The waveguide core may include a p-type core region and an n-type core region. A p-type semiconductor region may be in physical contact with the n-type core region of the waveguide core, and an n-type semiconductor region may be in physical contact with the p-type core region of the waveguide core. A phase shifter region and a light-emitting region may be disposed at different depth levels, and the light-emitting region may emit light from a phase shifter region that is in a position adjacent to the light-emitting region.Type: GrantFiled: October 31, 2022Date of Patent: April 16, 2024Assignee: Analog Photonics LLCInventors: Michael Watts, Ehsan Hosseini, Christopher Poulton, Erman Timurdogan
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Patent number: 11953678Abstract: Aspects of the present disclosure describe systems, methods, and structures for aberration correction of optical phased arrays that employ a corrective optical path difference (OPD) in the near-field of an OPA to correct or cancel out aberrations in emitted beams of the OPA including those reaching far-field distances by generating a spatially-varying OPD across the aperture of the OPA that is substantially equal and opposite to an equivalent OPD of the aberration(s).Type: GrantFiled: March 16, 2021Date of Patent: April 9, 2024Assignee: Analog Photonics LLCInventors: Peter Nicholas Russo, Ehsan Shah Hosseini, Christopher Vincent Poulton, Erman Timurdogan, Diedrik Vermeulen, Michael Robert Watts, Michael J. Whitson
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Patent number: 11940621Abstract: An apparatus comprises: a first integrated circuit comprising: a plurality of sets of optical waveguides, each set of optical waveguides including a plurality of optical waveguide segments, and a plurality of optical emitter elements arranged over a first surface of the first integrated circuit, each optical emitter element coupled to a distal end of one of the optical waveguide segments; and a second integrated circuit comprising: a plurality of optical phase shifters that each provide a phase-shifted optical wave that is coupled to the first integrated circuit from a first edge surface of the second integrated circuit. The first edge surface of the second integrated circuit is in proximity to a row of proximal ends of the optical waveguide segments of a first set of the plurality of sets of optical waveguides.Type: GrantFiled: September 2, 2021Date of Patent: March 26, 2024Assignee: Analog Photonics LLCInventors: Michael Robert Watts, Ehsan Shah Hosseini, Benjamin Roy Moss, Christopher Vincent Poulton
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Publication number: 20240014631Abstract: An apparatus comprises an optical cavity formed on a substrate and defining a round-trip optical path, an interface positioning at least a portion of a gain medium to provide an active portion of the round-trip optical path over which the gain medium provides sufficient gain for the optical wave to propagate around the round-trip optical path in a single mode, an output coupler coupling a portion of the optical wave out of the optical cavity from a passive portion of the round-trip optical path into a waveguide segment formed on the substrate, one or more tap couplers each diverting less than 50% of optical power from the waveguide segment, and one or more on-chip modules each receiving diverted optical power from at least one of the tap couplers and providing information associated with a laser that comprises the optical cavity and the gain medium.Type: ApplicationFiled: July 6, 2023Publication date: January 11, 2024Applicant: Analog Photonics LLCInventors: Christopher Vincent Poulton, Matthew Byrd, Peter Nicholas Russo, Diedrik Vermeulen
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Patent number: 11860422Abstract: Aspects of the present disclosure describe large scale steerable optical switched arrays that may be fabricated on a common substrate including many thousands or more emitters that may be arranged in a curved pattern at the focal plane of a lens thereby allowing the directional control of emitted light and selective reception of reflected light suitable for use in imaging, ranging, and sensing applications including accident avoidance.Type: GrantFiled: January 5, 2023Date of Patent: January 2, 2024Assignee: Analog Photonics LLCInventors: Ehsan Shah Hosseini, Michael Robert Watts
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Publication number: 20230367172Abstract: Light is provided to optical antennas (OAs) separated by a first set of spacings in a first OPA. Phases of light provided to respective OAs are controlled to form a transmitted beam whose angle is steered so that first and second lobes of a first angular intensity distribution (AID) scan over first and second portions of a region, respectively. Light is received from OAs separated by a second set of spacings in a second OPA into which light is received from directions associated with a second AID. The first lobe of the first AID and a first lobe of the second AID substantially overlap in angle during the scan of the first lobes, and the second lobe of the first AID and a second lobe of the second AID substantially overlap in angle during the scan of the second lobes.Type: ApplicationFiled: May 5, 2023Publication date: November 16, 2023Applicant: Analog Photonics LLCInventors: Jordan Goldstein, Christopher Vincent Poulton, Michael Robert Watts, Peter Nicholas Russo, Oleg Shatrovoy
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Publication number: 20230367173Abstract: A method comprises: providing light to a plurality of optical antennas separated by a set of spacings in an optical phased array (OPA), wherein a plurality of phase shifters impose phase shifts onto light provided to respective optical antennas of the plurality of optical antennas; and managing the imposed phase shifts using a phase shift control module. The managing comprises a first mode of operation comprising: for a first subset of optical antennas within a distance from a center of the plurality of optical antennas, determining variations of imposed phase shifts smaller than a phase shift variation range, and for a second subset of optical antennas further than the distance from the center of the plurality of optical antennas, determining variations of imposed phase shifts larger than the phase shift variation range.Type: ApplicationFiled: May 5, 2023Publication date: November 16, 2023Applicant: Analog Photonics LLCInventors: Jordan Goldstein, Christopher Vincent Poulton, Michael Robert Watts, Peter Nicholas Russo, Oleg Shatrovoy
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Patent number: 11809058Abstract: An optical phase shifter may include a waveguide core that has a top surface, and a semiconductor contact that is laterally displaced relative to the waveguide core and is electrically connected to the waveguide core. A top surface of the semiconductor contact is above the top surface of the waveguide core. The waveguide core may include a p-type core region and an n-type core region. A p-type semiconductor region may be in physical contact with the n-type core region of the waveguide core, and an n-type semiconductor region may be in physical contact with the p-type core region of the waveguide core. A phase shifter region and a light-emitting region may be disposed at different depth levels, and the light-emitting region may emit light from a phase shifter region that is in a position adjacent to the light-emitting region.Type: GrantFiled: July 8, 2021Date of Patent: November 7, 2023Assignee: Analog Photonics LLCInventors: Michael Watts, Ehsan Hosseini, Christopher Poulton, Erman Timurdogan
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Publication number: 20230324763Abstract: Operating an OPA includes: applying, by each phase shifter element an optical phase shift to an optical wave that propagates through the phase shifter element and propagates to a corresponding emitter element, where the optical phase shift is based on an electrical signal provided to the phase shifter element; providing, by each driver element an electrical signal to at least one of the phase shifter elements based on a digital code value received at an input of the driver element; and computing one or more digital code values that are provided to respective inputs of driver elements in the array of driver elements based on processing OPA control information. The processing includes: computing optical phase shift information based at least in part on the OPA control information, and computing a corresponding digital code value based at least in part on the optical phase shift information.Type: ApplicationFiled: April 5, 2023Publication date: October 12, 2023Applicant: Analog Photonics LLCInventors: Benjamin Roy Moss, Peter Nicholas Russo, Oleg Shatrovoy, Christopher Vincent Poulton
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Patent number: 11768418Abstract: An optical phase shifter may include a waveguide core that has a top surface, and a semiconductor contact that is laterally displaced relative to the waveguide core and is electrically connected to the waveguide core. A top surface of the semiconductor contact is above the top surface of the waveguide core. The waveguide core may include a p-type core region and an n-type core region. A p-type semiconductor region may be in physical contact with the n-type core region of the waveguide core, and an n-type semiconductor region may be in physical contact with the p-type core region of the waveguide core. A phase shifter region and a light-emitting region may be disposed at different depth levels, and the light-emitting region may emit light from a phase shifter region that is in a position adjacent to the light-emitting region.Type: GrantFiled: July 29, 2021Date of Patent: September 26, 2023Assignee: Analog Photonics LLCInventors: Michael Watts, Ehsan Hosseini, Christopher Poulton, Erman Timurdogan
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Patent number: 11762146Abstract: A plurality of waveguide structures are formed in at least one silicon layer of a first member. The first member includes: a first surface of a first silicon dioxide layer that is attached to a second member that consists essentially of an optically transmissive material having a thermal conductivity less than about 50 W/(m·K), and a second surface of material that was deposited over at least some of the plurality of waveguide structures. An array of phase shifters is formed in one or more layers of the first member. An array of temperature controlling elements are in proximity to the array of phase shifters.Type: GrantFiled: April 13, 2022Date of Patent: September 19, 2023Assignee: Analog Photonics LLCInventors: Michael Robert Watts, Benjamin Roy Moss, Ehsan Shah Hosseini, Christopher Vincent Poulton, Peter Nicholas Russo
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Patent number: 11714238Abstract: A wavelength division multiplexing filter comprises: a first multi-order Mach-Zehnder interferometer comprising a plurality of first-order Mach-Zehnder interferometers, and a second multi-order Mach-Zehnder interferometer comprising a plurality of first-order Mach-Zehnder interferometers; wherein the first multi-order Mach-Zehnder interferometer and the second multi-order Mach-Zehnder interferometer are included in a group of multiple multi-order Mach-Zehnder interferometers arranged within a binary tree arrangement, the binary tree arrangement comprising: a first set of a plurality of multi-order Mach-Zehnder interferometers, the first set including the first multi-order Mach-Zehnder interferometer, and having an associated spectral response with a first spacing between adjacent passbands, and a second set of at least twice as many multi-order Mach-Zehnder interferometers as in the first set, the second set including the second multi-order Mach-Zehnder interferometer, and having an associated spectral responType: GrantFiled: January 6, 2022Date of Patent: August 1, 2023Assignee: Analog Photonics LLCInventors: Zhan Su, Erman Timurdogan
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Publication number: 20230236471Abstract: 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: ApplicationFiled: March 8, 2023Publication date: July 27, 2023Applicant: Analog Photonics LLCInventors: Ehsan Hosseini, Michael Watts
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Patent number: 11693196Abstract: A first photonic die has a first coupling edge and a first die surface, and comprises: a first waveguide extending in proximity to the first coupling edge; a portion of the first die surface forming an alignment edge substantially parallel to the first waveguide; and a first alignment feature etched into or formed adjacent to the first coupling edge. A second photonic die has a second coupling edge and a second die surface, and comprises: a second waveguide extending in proximity to the second coupling edge; a portion of the second die surface configured to form a receptacle sized to constrain a position of the alignment edge; and a second alignment feature etched into or formed adjacent to the second coupling edge and configured to enable alignment with the first alignment feature when the first photonic die and the second photonic die are substantially aligned with each other.Type: GrantFiled: December 17, 2021Date of Patent: July 4, 2023Assignee: Analog Photonics LLCInventors: Diedrik Vermeulen, Ehsan Shah Hosseini, Michael J. Whitson
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Patent number: 11619718Abstract: Aspects of the present disclosure describe systems, methods, and structures—including LiDAR—that employ multiple detectors that may determine multiple incident angles of multiple received radiation beams and advantageously do not require or employ phase shifters in illustrative embodiments and may instead—employ optical Fourier transform structures.Type: GrantFiled: December 21, 2021Date of Patent: April 4, 2023Assignee: Analog Photonics LLCInventors: Ehsan Hosseini, Michael Watts, Christopher Poulton, Matthew Byrd, Diedrik Vermeulen, Peter Russo
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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