Patents by Inventor Andrew Steil Michaels
Andrew Steil Michaels has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11994630Abstract: A light detection and ranging (LIDAR) system includes a laser and a calibration unit. The laser is configured to generate a laser beam based on a particular laser waveform that is associated with at least one parameter of a plurality of parameters. The calibration unit is configured to determine a particular value for the at least one parameter of the plurality of parameters to compensate for distortion characteristics of the laser. The calibration unit is configured to determine the particular value based on an output frequency of the laser beam. The calibration unit is configured to update the particular laser waveform with the particular value of the at least one parameter of the plurality of parameters.Type: GrantFiled: May 28, 2022Date of Patent: May 28, 2024Assignee: AURORA OPERATIONS, INC.Inventors: Andrew Steil Michaels, Sen Lin
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Publication number: 20240151820Abstract: A structure of a silicon photonics device for LIDAR includes a first insulating structure and a second insulating structure disposed above one or more etched silicon structures overlying a substrate member. A metal layer is disposed above the first insulating structure without a prior deposition of a diffusion barrier and adhesion layer. A thin insulating structure is disposed above the second insulating structure. A first configuration of the metal layer, the first insulating structure and the one or more etched silicon structures forms a free-space coupler. A second configuration of the thin insulating structure above the second insulating structure forms an edge coupler.Type: ApplicationFiled: January 12, 2024Publication date: May 9, 2024Inventors: Sen Lin, Andrew Steil Michaels
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Patent number: 11965982Abstract: A LIDAR sensor system for a vehicle can include a light source configured to generate a beam; at least one optical amplifier configured to amplify the beam to produce an amplified beam; an optical power distribution network; a transmitter configured to receive the plurality of distributed beams; and one or more optics configured to emit the plurality of distributed beams. The optical power distribution network can include at least one input port configured to receive the amplified beam; one or more optical splitters configured to split the amplified beam into a plurality of distributed beams; a plurality of output ports respectively configured to provide the plurality of distributed beams; and one or more optical isolators configured to attenuate reflected signals at the plurality of output ports by coherently interfering the reflected signals.Type: GrantFiled: October 11, 2023Date of Patent: April 23, 2024Assignee: AURORA OPERATIONS, INC.Inventors: Swarnav Banik, Andrew Steil Michaels, Phillip Sandborn
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Patent number: 11965992Abstract: A light detection and ranging (LIDAR) system includes a laser and a calibration unit. The laser is configured to generate a laser beam based on a particular laser waveform that is associated with at least one parameter of a plurality of parameters. The calibration unit is configured to determine a particular value for the at least one parameter of the plurality of parameters to compensate for distortion characteristics of the laser. The calibration unit is configured to determine the particular value based on an output frequency of the laser beam. The calibration unit is configured to update the particular laser waveform with the particular value of the at least one parameter of the plurality of parameters.Type: GrantFiled: May 28, 2022Date of Patent: April 23, 2024Assignee: AURORA OPERATIONS, INC.Inventors: Andrew Steil Michaels, Sen Lin
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Publication number: 20240111032Abstract: A LIDAR transceiver includes a source input, coherent cells, and an optical switch. The optical switch is configured to switchably couple the source input to the coherent cells. At least one of the coherent cells includes an input port, an optical antenna, and a splitter. The input port is coupled to the optical switch and the splitter is coupled between the input port and the optical antenna. The splitter is configured to split a received portion of a laser signal into a local oscillator signal and a transmit signal, where the transmit signal is emitted through the optical antenna. A reflection of the transmit signal is received through the optical antenna as a reflected signal, where the splitter is further configured to output a return signal that is a portion of the reflected signal.Type: ApplicationFiled: December 13, 2023Publication date: April 4, 2024Inventors: Amir Hosseini, Sen Lin, Andrew Steil Michaels
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Publication number: 20240111053Abstract: A light detection and ranging (LIDAR) sensor system for a vehicle includes a transmitter, a receiver, and a scanner. The transmitter is configured to output a transmit beam. The transmitter includes a first grating coupler. The receiver includes a plurality of second grating couplers spaced apart from the first grating coupler.Type: ApplicationFiled: December 13, 2023Publication date: April 4, 2024Applicant: Aurora Operations, Inc.Inventors: Edward Joseph Angus, Zeb William Barber, Andrew Steil Michaels, Evan Rogers
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Publication number: 20240094350Abstract: A light detection and ranging (LIDAR) device may include a local oscillator network and one or more LIDAR pixels coupled to the local oscillator network. At least one of the one or more LIDAR pixels may include a transmit optical antenna, a receive optical antenna, and at least one receiver. The transmit optical antenna may be configured to emit a transmit beam. The receive optical antenna may be configured to detect a first polarization orientation of a return beam and a second polarization orientation of the return beam. The at least one receiver can be configured to receive at least one local oscillator signal from the local oscillator network. The at least one receiver can be configured to generate a signal based on the local oscillator signal and the return beam.Type: ApplicationFiled: June 21, 2022Publication date: March 21, 2024Inventors: Sen Lin, Andrew Steil Michaels
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Patent number: 11927702Abstract: A light detection and ranging (LIDAR) sensor system for a vehicle includes one or more LIDAR pixels. At least one of the one or more LIDAR pixels includes a dual-polarization optical antenna, a second optical antenna, and one or more receivers. The dual-polarization optical antenna is configured to emit a transmit beam having a first polarization orientation, and detect a return beam having a second polarization orientation. The second optical antenna is offset from the dual-polarization optical antenna by a particular distance, and is configured to detect the return beam having the second polarization orientation. The one or more receivers are configured to generate one or more signals in response to detecting the second polarization orientation of the return beam.Type: GrantFiled: January 19, 2023Date of Patent: March 12, 2024Assignee: AURORA OPERATIONS, INC.Inventors: Sen Lin, Andrew Steil Michaels
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Publication number: 20240061178Abstract: A structure of a silicon photonics device for LIDAR includes a first insulating structure and a second insulating structure disposed above one or more etched silicon structures overlying a substrate member. A metal layer is disposed above the first insulating structure without a prior deposition of a diffusion barrier and adhesion layer. A thin insulating structure is disposed above the second insulating structure. A first configuration of the metal layer, the first insulating structure and the one or more etched silicon structures forms a free-space coupler. A second configuration of the thin insulating structure above the second insulating structure forms an edge coupler.Type: ApplicationFiled: October 30, 2023Publication date: February 22, 2024Inventors: Sen Lin, Andrew Steil Michaels
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Patent number: 11906667Abstract: A LIDAR device for a vehicle includes an integrated chip. The integrated chip includes a substrate layer, a cladding layer, a waveguide, a scattering array, and a reflector layer. The cladding layer is disposed on the substrate layer to form an interface with the substrate layer. The waveguide is disposed within the cladding layer and configured to route an infrared optical field. The scattering array is disposed within the cladding layer between the waveguide and the interface and perturbs the infrared optical field and scatters the infrared optical field into a first beam propagating toward a surface of the cladding layer and into a second beam propagating towards the interface. The reflector layer is disposed within the cladding layer between the waveguide and the surface of the cladding layer to reflect the first beam towards the interface.Type: GrantFiled: August 17, 2022Date of Patent: February 20, 2024Assignee: AURORA OPERATIONS, INC.Inventors: Sen Lin, Andrew Steil Michaels
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Patent number: 11906661Abstract: A structure of a silicon photonics device for LIDAR includes a first insulating structure and a second insulating structure disposed above one or more etched silicon structures overlying a substrate member. A metal layer is disposed above the first insulating structure without a prior deposition of a diffusion barrier and adhesion layer. A thin insulating structure is disposed above the second insulating structure. A first configuration of the metal layer, the first insulating structure and the one or more etched silicon structures forms a free-space coupler. A second configuration of the thin insulating structure above the second insulating structure forms an edge coupler.Type: GrantFiled: June 29, 2022Date of Patent: February 20, 2024Assignee: AURORA OPERATIONS, INC.Inventors: Sen Lin, Andrew Steil Michaels
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Publication number: 20240055834Abstract: A photonic integrated circuit (PIC) assembly comprising a semiconductor optical amplifier (SOA) array and a U-turn chip. The SOA array includes an input SOA and a plurality of SOAs. The input SOA and the plurality of SOAs are arranged parallel to one another. The U-turn chip includes an optical splitter and a waveguide assembly. The optical splitter is configured to receive amplified input light propagating in a first direction from the input SOA, and divide the amplified light into beams. The waveguide assembly guides the beams to a corresponding SOA of the plurality of SOAs, and adjusts a direction of prorogation of each of the guided beams to be substantially parallel to a second direction that is substantially opposite the first direction.Type: ApplicationFiled: October 13, 2023Publication date: February 15, 2024Inventors: Andrew Steil Michaels, Lei Wang, Sen Lin
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Patent number: 11880000Abstract: A LIDAR transceiver includes a source input, coherent cells, and an optical switch. The optical switch is configured to switchably couple the source input to the coherent cells. At least one of the coherent cells includes an input port, an optical antenna, and a splitter. The input port is coupled to the optical switch and the splitter is coupled between the input port and the optical antenna. The splitter is configured to split a received portion of a laser signal into a local oscillator signal and a transmit signal, where the transmit signal is emitted through the optical antenna. A reflection of the transmit signal is received through the optical antenna as a reflected signal, where the splitter is further configured to output a return signal that is a portion of the reflected signal.Type: GrantFiled: August 16, 2022Date of Patent: January 23, 2024Assignee: Aurora Operations, Inc.Inventors: Amir Hosseini, Sen Lin, Andrew Steil Michaels
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Patent number: 11874376Abstract: A light detection and ranging (LIDAR) sensor system for a vehicle includes a transmitter, a receiver, and a scanner. The transmitter is configured to output a transmit beam. The transmitter includes a first grating coupler. The receiver includes a plurality of second grating couplers spaced apart from the first grating coupler.Type: GrantFiled: August 18, 2022Date of Patent: January 16, 2024Assignee: AURORA OPERATIONS, INC.Inventors: Edward Joseph Angus, Zeb William Barber, Andrew Steil Michaels, Evan Rogers
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Publication number: 20230417886Abstract: A light detection and ranging (LIDAR) sensor system for a vehicle includes one or more LIDAR pixels. At least one of the one or more LIDAR pixels includes a dual-polarization optical antenna, a second optical antenna, and one or more receivers. The dual-polarization optical antenna is configured to emit a transmit beam having a first polarization orientation, and detect a return beam having a second polarization orientation. The second optical antenna is offset from the dual-polarization optical antenna by a particular distance, and is configured to detect the return beam having the second polarization orientation. The one or more receivers are configured to generate one or more signals in response to detecting the second polarization orientation of the return beam.Type: ApplicationFiled: January 19, 2023Publication date: December 28, 2023Inventors: Sen Lin, Andrew Steil Michaels
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Publication number: 20230400589Abstract: A light detection and ranging (LIDAR) sensor system includes a plurality of LIDAR pixels and a local oscillator module. The local oscillator module is coupled to the plurality of LIDAR pixels. The local oscillator module includes a first local oscillator input configured to receive a first local oscillator signal and a second local oscillator input configured to receive a second local oscillator signal. The local oscillator module is configured to provide the first local oscillator signal or the second local oscillator signal to a first LIDAR pixel of the plurality of LIDAR pixels.Type: ApplicationFiled: January 30, 2023Publication date: December 14, 2023Inventors: Sen Lin, Andrew Steil Michaels
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Publication number: 20230400578Abstract: A light detection and ranging (LIDAR) system include one or more LIDAR pixels including a transmit optical antenna, a receive optical antenna, a first receiver, and a second receiver. The transmit optical antenna is configured to emit a transmit beam. The receive optical antenna is configured to detect (i) a first polarization orientation of a returning beam and (ii) a second polarization orientation of the returning beam.Type: ApplicationFiled: March 22, 2023Publication date: December 14, 2023Inventors: Sen Lin, Andrew Steil Michaels
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Patent number: 11835765Abstract: A structure of a silicon photonics device for LIDAR includes a first insulating structure and a second insulating structure disposed above one or more etched silicon structures overlying a substrate member. A metal layer is disposed above the first insulating structure without a prior deposition of a diffusion barrier and adhesion layer. A thin insulating structure is disposed above the second insulating structure. A first configuration of the metal layer, the first insulating structure and the one or more etched silicon structures forms a free-space coupler. A second configuration of the thin insulating structure above the second insulating structure forms an edge coupler.Type: GrantFiled: October 31, 2022Date of Patent: December 5, 2023Assignee: Aurora Operations, Inc.Inventors: Sen Lin, Andrew Steil Michaels
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Publication number: 20230375714Abstract: A light detection and ranging (LIDAR) sensor system includes a plurality of LIDAR pixels and a local oscillator module. The local oscillator module is coupled to the plurality of LIDAR pixels. The local oscillator module includes a first local oscillator input configured to receive a first local oscillator signal and a second local oscillator input configured to receive a second local oscillator signal. The local oscillator module is configured to provide the first local oscillator signal or the second local oscillator signal to a first LIDAR pixel of the plurality of LIDAR pixels.Type: ApplicationFiled: January 27, 2023Publication date: November 23, 2023Inventors: Sen Lin, Andrew Steil Michaels
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Publication number: 20230375713Abstract: A light detection and ranging (LIDAR) sensor system includes a plurality of LIDAR pixels and a local oscillator module. The local oscillator module is coupled to the plurality of LIDAR pixels. The local oscillator module includes a first local oscillator input configured to receive a first local oscillator signal and a second local oscillator input configured to receive a second local oscillator signal. The local oscillator module is configured to provide the first local oscillator signal or the second local oscillator signal to a first LIDAR pixel of the plurality of LIDAR pixels.Type: ApplicationFiled: May 20, 2022Publication date: November 23, 2023Inventors: Sen Lin, Andrew Steil Michaels