Patents Examined by Eric L Bolda
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Patent number: 11769983Abstract: A WDM seed beam source for a fiber laser amplifier system that includes a number of master oscillators that generate seed beams at different wavelengths and a spectral multiplexer that multiplexes all of the seed beams onto a single fiber. An EOM modulates the combined seed beams on the single fiber and a spectral demultiplexer then separates the modulated seed beams into their constituent wavelengths on separate fibers before the seed beams are amplified and spectrally combined. The fiber laser amplifier system includes a separate fiber amplifier that amplifies the separated seed beams, an emitter array that directs the amplified beams into free space, beam collimating optics that focuses the uncombined beams, and an SBC grating responsive to the collimated uncombined beams that spatially combines the collimated uncombined beams.Type: GrantFiled: July 1, 2022Date of Patent: September 26, 2023Assignee: NORTHROP GRUMMAN SYSTEMS CORPORATIONInventors: Gregory D. Goodno, Eric C. Cheung
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Patent number: 11764536Abstract: In some implementations, an amplifier device may include a first amplifier configured to amplify signals in a first range of optical wavelengths. The first amplifier may include a first portion that includes one or more first optical gain components, and a second portion that includes one or more second optical gain components and a variable optical attenuator. The amplifier device may include a second amplifier configured to amplify signals in a second range of optical wavelengths. The amplifier device may include a filter for the first range of optical wavelengths and the second range of optical wavelengths. The filter may be located between the first portion and the second portion of the first amplifier.Type: GrantFiled: October 26, 2020Date of Patent: September 19, 2023Assignee: Lumentum Operations LLCInventors: Ali Salehiomran, Michael Demerchant, Brian Smith, Peter David Roorda
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Patent number: 11764875Abstract: Techniques for managing gain equalization error in optical communication systems are provided. For example, a multi-stage gain correction filter may be configured to at least correct gain equalization error produced by filters with insufficient resolution, for example, conventional non-reflective gain correction technology used in the optical communication systems. The multi-stage filter may include at least a broadband gain correction filter to correct gain equalization error in most of the transmission bandwidth and a narrow band gain correction filter to correction error in a narrow region of the bandwidth. One or more of the multi-stage filters may be implemented in the repeaters of the system (which may be referred to as hybrid GFFs) or may be included in a standalone body (which may be referred to as hybrid GEFs).Type: GrantFiled: November 6, 2020Date of Patent: September 19, 2023Assignee: SUBCOM, LLCInventors: Dmitri G. Foursa, Timothy E. Hammon
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Patent number: 11740340Abstract: A light detection and ranging (LIDAR) apparatus includes an optical circuit including an optical source to transmit an optical beam, a first optical component to generate a local oscillator from the optical beam, a first optical amplifier to amplify a return signal to generate an amplified return signal, wherein a power level of the local oscillator is comparable to a power of amplified spontaneous emission of the first optical amplifier, and an optical detector operatively coupled to the first optical amplifier, the optical detector configured to output an electrical signal based on the amplified return signal and the local oscillator.Type: GrantFiled: May 27, 2022Date of Patent: August 29, 2023Assignee: Aeva, Inc.Inventors: Behsan Behzadi, Mina Rezk
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Patent number: 11740359Abstract: Techniques are described herein that are capable of forming a depth map and/or projecting an image onto object(s) based on the depth map. A depth map is a three-dimensional representation of an environment. Forming the depth map may utilize a progressive resolution refinement technique. For example, locating information may be determined in accordance with the progressive resolution refinement technique in response to performing a scan of a current point over a field of view. The current point is a point, selected from a plurality of points (e.g., a grid of points) in the field of view, to which a detection beam of light is directed at a respective time as the scan is performed over the field of view. In accordance with this example, the locating information may be coordinated with the scan to form the depth map.Type: GrantFiled: June 8, 2020Date of Patent: August 29, 2023Assignee: Mezmeriz, Inc.Inventors: Clifford A. Lardin, Shahyaan Desai, Scott G. Adams
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Patent number: 11735883Abstract: The present description relates, according to one aspect, to a high-peak-power laser pulse generation system (10), comprising at least one first light source (101) for emitting first laser pulses (IL), a fiber device (110) for transporting said first laser pulses, comprising at least one first multimode fiber with a single core designed to receive said first laser pulses, and a module (102) for temporally shaping said first laser pulses, arranged upstream of the fiber device, configured so as to reduce the power spectral density of said pulses by reducing the temporal coherence.Type: GrantFiled: May 31, 2019Date of Patent: August 22, 2023Assignee: IMAGINE OPTICInventors: Guillaume Gorju, Adam Ayeb, Xavier Levecq
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Patent number: 11728611Abstract: An optical device may include an enclosure including an optical aperture and a plurality of optical components positioned within the enclosure, where the plurality of optical components are to emit and/or receive light through the optical aperture. The optical device may include at least one heating element or cooling element to provide an isothermal environment to the plurality of optical components, where the at least one heating element or cooling element is thermally coupled with the enclosure.Type: GrantFiled: December 12, 2019Date of Patent: August 15, 2023Assignee: Lumentum Operations LLCInventors: Roozbeh Ahmadi, Nenad Duricic, Doug Cross
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Patent number: 11725937Abstract: Through discrimination of the scattered signal polarization state, a lidar system measures a distance through semi-transparent media by the reception of single or multiple scattered signals from a scattering medium. Combined and overlapped single or multiple scattered light signals from the medium can be separated by exploiting varying polarization characteristics. This removes the traditional laser and detector pulse width limitations that determine the system's operational bandwidth, translating relative depth measurements into the conditions of two surface timing measurements and achieving sub-pulse width resolution.Type: GrantFiled: April 25, 2022Date of Patent: August 15, 2023Assignees: The Regents Of The University Of Colorado, A Body Corporate, Astra Lite, Inc.Inventors: Jeffrey P. Thayer, Geoffrey Crowley, Andrew W. Gisler, Steven Mitchell, Matthew Hayman
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Patent number: 11728612Abstract: A control system includes a field-programmable gate array (FPGA), a digital-to-analog conversion (DAC) circuit, an external TEC driver, and a pump chip. The field-programmable gate array (FPGA) includes a pump driver and a thermoelectric-cooler (TEC) controller. The digital-to-analog conversion (DAC) circuit is coupled to the FPGA. The external TEC driver is external to the FPGA and coupled to the FPGA. The pump chip includes a pump and a TEC and is coupled to the DAC circuit and the external TEC driver.Type: GrantFiled: December 23, 2020Date of Patent: August 15, 2023Assignee: II-VI DELAWARE, INCInventors: Zhoujian Wang, Xingyu Weng, Qiaowen Chen
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Patent number: 11728613Abstract: An amplifier operable with an electric drive signal can amplify signal light having a signal wavelength. A laser diode has an active section with input and output facets. The facets are in optical communication with the signal light and are configured to pass the signal light through the laser diode. The active section is configured to generate pump light in response to injection of the electrical drive signal into the active section. The pump light has a pump wavelength different from the signal wavelength. A doped fiber doped with an active dopant is in optical communication with the signal light and is in optical communication with at least a portion of the pump light from the laser diode. The pump wavelength of the pump light is configured to interact with the active dopant of the fiber and thereby amplify the signal light.Type: GrantFiled: January 25, 2021Date of Patent: August 15, 2023Assignee: II-VI DELAWARE, INC.Inventors: Ian Peter McClean, Nadhum Kadhum Zayer, Martin Richard Williams
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Patent number: 11719792Abstract: Systems, methods, and computer-readable media are disclosed for a systems and methods for intra-shot dynamic LIDAR detector gain. One example method my include emitting, by an optical ranging system at a first time, a first light pulse. The example method may also include increasing, after the first time, a sensitivity of a photodetector of the optical ranging system from a first sensitivity at the first time to a second sensitivity at a second time. The example method may also include decreasing the sensitivity of the photodetector of the optical ranging system from the second sensitivity at third time to the first sensitivity at a fourth time, wherein the fourth time is after the photodetector receives return light based on the first light pulse. The example method may also include emitting, by the optical ranging system at the fourth time, a second light pulse.Type: GrantFiled: August 21, 2020Date of Patent: August 8, 2023Assignee: LG INNOTEK CO., LTD.Inventors: Dane P. Bennington, Ryan T. Davis, Michel H. J. Laverne
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Patent number: 11714194Abstract: A LIDAR system has a transmitter that outputs a system output signal from the LIDAR system. The LIDAR system also includes electronics that control a frequency of the system output signal over a series of cycles. The cycles include multiple data periods. The electronics change the frequency of the system output signal at a first rate during a first one of the data periods. The electronics change the frequency of the system output signal at a second rate during a second one of the data periods. The second rate is different from the first rate.Type: GrantFiled: April 14, 2020Date of Patent: August 1, 2023Assignee: SiLC Technologies, Inc.Inventors: Majid Boloorian, Mehdi Asghari, Bradley Jonathan Luff, Nirmal Chindhu Warke
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Patent number: 11714168Abstract: Various forms of optical circulator are disclosed. The optical circulators act on polarisation of the light to direct light between its ports. Also disclosed are systems and methods for facilitating estimation of a spatial profile of an environment based on a light detection and ranging (LiDAR) based technique. The systems and method may include or use one or more of the various forms of optical circulator. In one arrangement, the present disclosure facilitates spatial profile estimation based on directing light over one dimension, such as along the vertical direction. In another arrangement, by further directing the one-dimensionally directed light in another dimension, such as along the horizontal direction, the present disclosure facilitates spatial profile estimation based on directing light in two dimensions.Type: GrantFiled: October 31, 2018Date of Patent: August 1, 2023Assignee: BARAJA PTY LTD.Inventor: Fernando Diaz
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Patent number: 11703569Abstract: Methods and systems for performing three dimensional LIDAR measurements with an integrated LIDAR measurement device are described herein. In one aspect, a return signal receiver generates a pulse trigger signal that triggers the generation of a pulse of illumination light and data acquisition of a return signal, and also triggers the time of flight calculation by time to digital conversion. In addition, the return signal receiver also estimates the width and peak amplitude of each return pulse, and samples each return pulse waveform individually over a sampling window that includes the peak amplitude of each return pulse waveform. In a further aspect, the time of flight associated with each return pulse is estimated based on a coarse timing estimate and a fine timing estimate. In another aspect, the time of flight is measured from the measured pulse due to internal optical crosstalk and a valid return pulse.Type: GrantFiled: January 21, 2020Date of Patent: July 18, 2023Assignee: VELODYNE LIDAR USA, INC.Inventors: David S. Hall, Raymond Liou, Oren Milgrome, Anand Gopalan, Pravin Kumar Venkatesan
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Patent number: 11703595Abstract: An image noise compensating system, comprising: a distance determining device, configured to determine whether a distance is larger than a distance threshold or not; an image sensor, comprising at least one image sensing unit, wherein the image sensor forms a combined image sensing unit when the distance is smaller than the distance threshold and senses images without forming the combined image sensing unit when the distance is larger than the distance threshold, wherein a width of an area that the combined image sensing unit can sense is larger than a width of an area that the image sensing unit can sense; a noise compensating circuit, configured to compensate image noises; and a control circuit, configured to calculate a location of the image noise compensating system.Type: GrantFiled: April 19, 2022Date of Patent: July 18, 2023Assignee: PixArt Imaging Inc.Inventor: Guo-Zhen Wang
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Patent number: 11698537Abstract: A method for providing spectral beam combining (SBC) including generating a plurality seed beams each having a central wavelength and a low fill factor profile, where the wavelength of all of the seed beams is different; amplifying the seed beams; causing the amplified beams to expand as they propagate so as to be converted from the low fill factor profile to a high fill factor profile where the high fill factor profile tapers to a lower value at a perimeter of each beam; causing a wavefront of the converted beams to flatten to provide a plurality of adjacent SBC beams having different wavelengths with minimal overlap and a minimal gap between the beams; collimating the SBC beams; and directing the collimated SBC beams onto an SBC element that spatially diffracts the individual beam wavelengths and directing the beams in the same direction as a combined output beam.Type: GrantFiled: August 9, 2022Date of Patent: July 11, 2023Assignee: NORTHROP GRUMMAN SYSTEMS CORPORATIONInventors: Gregory D. Goodno, Joshua E. Rothenberg
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Patent number: 11693094Abstract: A method to compensate for phase impairments in a light detection and ranging (LIDAR) system includes transmitting a first optical beam towards a target, receiving a second optical beam from the target to produce a received optical beam; and generating a digitally-sampled target signal using a local oscillator (LO) beam, a first photo-detector and the received optical beam. The method also includes generating a digitally-sampled reference signal using a reference beam transmitted through a fiber delay device and a second photo-detector, and estimating one or more phase impairments in the LiDAR system using the digitally-sampled reference signal to produce one or more estimated phase impairments. The method also includes performing a first correction on a first phase impairment introduced into the digitally-sampled target signal by the LO beam; performing a second correction on a second phase impairment introduced into the digitally-sampled target signal by the received optical beam.Type: GrantFiled: November 8, 2021Date of Patent: July 4, 2023Assignee: Aeva, Inc.Inventors: Kumar Bhargav Viswanatha, Jose Krause Perin, Rajendra Tushar Moorti, Mina Rezk
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Patent number: 11681151Abstract: A hybrid coherent beam combining (CBC) and spectral beam combining (SBC) fiber laser amplifier system including a beam shaper array assembly and a beam source that provides a plurality of beams having a low fill factor profile. The assembly includes an input beam shaper array having a plurality of rectilinear input cells positioned adjacent to each other that are shaped to cause the beam to expand as it propagates away from the input array to be converted from the low fill factor profile to a high fill factor profile. The assembly further includes an output beam shaper array having a plurality of output cells positioned adjacent to each other that are shaped to cause the beam to stop expanding so that the output array provides a plurality of adjacent beams with minimal overlap and a minimal gap between the beams.Type: GrantFiled: June 30, 2022Date of Patent: June 20, 2023Assignee: NORTHROP GRUMMAN SYSTEMS CORPORATIONInventors: Gregory D. Goodno, Joshua E. Rothenberg
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Patent number: 11681152Abstract: A coherently beam combining (CBC) fiber laser amplifier system including beam shaper array assembly and a beam source that provides a plurality of beams having a low fill factor profile. The assembly includes an input beam shaper array having a plurality of input cells positioned adjacent to each other that are shaped to cause the beam to expand as it propagates away from the input array to be converted from the low fill factor profile to a high fill factor profile and cause the profile to taper to a lower value at a perimeter of each input array cell. The assembly further includes an output beam shaper array having a plurality of output cells positioned adjacent to each other that are shaped to cause the beam to stop expanding so that the output array provides a plurality of adjacent beams with minimal overlap and a minimal gap between the beams.Type: GrantFiled: July 1, 2022Date of Patent: June 20, 2023Assignee: NORTHROP GRUMMAN SYSTEMS CORPORATIONInventors: Gregory D. Goodno, Joshua E. Rothenberg
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Patent number: 11675075Abstract: Embodiments of the disclosure provide a system for controlling power of laser lights emitted by an optical sensing device. The system includes at least one storage device configured to store instructions and at least one processor communicatively coupled to the at least one storage device and configured to execute the instructions to perform operations. The operations include detecting an object within a field of view of the optical sensing device based on a reflected laser signal received by the optical sensing device, determining a distance of the object from the optical sensing device, determining a value indicating a total power of one or more laser beams to be incident on an aperture at the distance, and comparing the value with a predetermined tolerance value. The operations also includes adjusting a laser emission scheme to reduce the total power when the value is greater than the predetermined tolerance value.Type: GrantFiled: October 15, 2019Date of Patent: June 13, 2023Assignee: BEIJING VOYAGER TECHNOLOGY CO., LTD.Inventors: Lingkai Kong, Yue Lu, Youmin Wang, Chao Wang