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Optical amplifier with multi-wavelength pumping

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G01C-003/08
  • H01S-003/094
  • H01S-003/067
  • H01S-005/40
  • G01S-007/484
  • H01S-003/13
  • G01S-017/10
  • G02B-027/10
출원번호 US-0828415 (2017-11-30)
등록번호 US-10211593 (2019-02-19)
발명자 / 주소
  • Lingvay, Laurance S.
  • Villeneuve, Alain
  • Eichenholz, Jason M.
출원인 / 주소
  • LUMINAR TECHNOLOGIES, INC.
대리인 / 주소
    Marshall, Gerstein & Borun LLP
인용정보 피인용 횟수 : 0  인용 특허 : 71

초록

In one embodiment, an optical amplifier includes a first pump laser diode and a second pump laser diode. The first pump laser diode is configured to produce pump light that includes a first amount of optical power at a first wavelength, and the second pump laser diode is configured to produce pump l

대표청구항

1. An optical amplifier comprising: a first pump laser diode configured to produce pump light comprising a first amount of optical power at a first wavelength;a second pump laser diode configured to produce pump light comprising a second amount of optical power at a second wavelength different from

이 특허에 인용된 특허 (71)

  1. Smith, Scott T.; Last, Matthew E.; Valko, Edward A., 3D depth point cloud from timing flight of 2D scanned light beam pulses.
  2. Clausen, Bernard; Monat, Laurent; Rochas, Alexis, Apparatus and method for allowing avalanche photodiode based single-photon detectors to be driven by the same electrical circuit in gated and in free-running modes.
  3. Itzler, Mark Allen; Ben-Michael, Rafael; Rangwala, Sabbir Sajjad, Apparatus comprising a single photon photodetector having reduced afterpulsing and method therefor.
  4. Hipp, Johann, Apparatus for determining a distance profile.
  5. Haberer, Manfred; Rothenberger, Bernd, Apparatus for the recognition of the presence of an object in space.
  6. Chia, Ching Kean, Avalanche photodiode.
  7. Zbrozek, Alexander; Droz, Pierre-Yves; Linaval, Asheem, Circuit architecture for optical receiver with increased dynamic range.
  8. Hall, David S., Color LiDAR scanner.
  9. Ferguson, David Ian; Haehnel, Dirk; Mahon, Ian, Construction zone object detection using light detection and ranging.
  10. Trepagnier, Paul Gerard; Nagel, Jorge Emilio; Dooner, Matthew Taylor; Dewenter, Michael Thomas; Traft, Neil Michael; Drakunov, Sergey; Kinney, Powell; Lee, Aaron, Control and systems for autonomously driven vehicles.
  11. Lages, Ulrich; Willhoeft, Volker; Dittmer, Martin, Correction method for data of a plurality of optoelectronic sensors.
  12. Kiehn, Michael; Aikio, Mauri; Aikio, Mika, Detection apparatus.
  13. Pennecot, Gaetan; Droz, Pierre-Yves; Ulrich, Drew Eugene; Gruver, Daniel; Morriss, Zachary; Levandowski, Anthony, Devices and methods for a rotating LIDAR platform with a shared transmit/receive path.
  14. Pennecot, Gaetan; Droz, Pierre-Yves; Ulrich, Drew Eugene; Gruver, Daniel; Morriss, Zachary; Levandowski, Anthony, Devices and methods for a rotating LIDAR platform with a shared transmit/receive path.
  15. d'Aligny, Auguste, Distance measurement methods and apparatus.
  16. Giacotto, Luca; Tinivella, Riccardo, Distance measuring device.
  17. Urmson, Chris; Droz, Pierre-yves; Wachter, Luke, Dynamic control of diode bias voltage (photon-caused avalanche).
  18. Droz, Pierre-yves; Levandowski, Anthony, Dynamic measurements of pulse peak value.
  19. Mheen, Bongki; Sung, Ki-Jun; Sim, Jae-Sik; Kim, Kisoo; Oh, MyoungSook; Kwon, Yong-Hwan; Nam, Eun Soo, Dynamic range three-dimensional image system.
  20. Henderson, Sammy W.; Suni, Paul J. M., Efficient lidar with flexible target interrogation pattern.
  21. Fermann, Martin E.; Harter, Donald J., Environmentally stable passively modelocked fiber laser pulse source.
  22. Nijjar, Anmol; LaChapelle, Joe; Williams, George, Er,Yb:YAB laser system.
  23. Hall, David S., High definition LiDAR system.
  24. Hall, David S., High definition LiDAR system.
  25. Hall, David S., High definition lidar system.
  26. Mayor, Shane; Spuler, Scott, High pulse-energy, eye-safe lidar system.
  27. Minelly, John D.; Alterman, Deborah A., High-energy eye-safe pulsed fiber amplifiers and sources operating in erbium's L-band.
  28. Mordarski, William Paul; Itzler, Mark Allen, High-repetition-rate single-photon receiver and method therefor.
  29. Leonardo,Manuel J.; Byer,Mark W.; Smoliar,Laura A., Laser apparatus having multiple synchronous amplifiers tied to one master oscillator.
  30. Steffey, Kenneth; Becker, Reinhard; Becker, Bernd-Dietmar, Laser scanner.
  31. DePriest,Christopher M.; Decker,Mark A.; Hawk,Matthew D.; Lindauer,Steven J.; Lingvay,Laurance S.; Ross,Gary D.; Stanley,Douglas P., Laser system with multiple wavelength diode pump head and associated method.
  32. Cameron Evan S. (Midland CAX) Szumski Ronald P. (Raleigh MI GB2) West James K. (Farmington Hills MI), Lidar scanning system.
  33. Walsh, Gregory C.; Aindow, Alan, Lidar system.
  34. Pennecot, Gaetan; Droz, Pierre-yves; Morriss, Zachary; McCann, William, Light detection and ranging device with oscillating mirror driven by magnetically interactive coil.
  35. Laumeyer,Robert Anthony; Retterath,James Eugene, Method and apparatus for identifying objects depicted in a videostream.
  36. Robert Anthony Laumeyer ; James Eugene Retterath, Method and apparatus for rapidly determining whether a digitized image frame contains an object of interest.
  37. Weiss, Yizhar; Velger, Mordekhai; Natan-Knaz, Sivan; Erlich, Raviv; Sromin, Alexander, Method and device for scanning light.
  38. Breed,David S.; DuVall,Wilbur E.; Johnson,Wendell C., Method for obtaining and displaying information about objects in a vehicular blind spot.
  39. Retterath, James E.; Laumeyer, Robert A., Methods and apparatus for object detection and identification in a multiple detector lidar array.
  40. Droz, Pierre-yves; Urmson, Chris, Methods and systems for controlling operation of a laser device.
  41. Dowdall, Jonathan Baldwin; Zhu, Jiajun, Methods and systems for estimating vehicle speed.
  42. Droz, Pierre-Yves; Pennecot, Gaetan; Gruver, Daniel, Methods, devices, and systems for improving dynamic range of signal receiver.
  43. Gruver, Daniel; Droz, Pierre-Yves; Pennecot, Gaetan; Morriss, Zachary; Iordache, Dorel Ionut, Microrod compression of laser beam in combination with transmit lens.
  44. Trepagnier, Paul Gerard; Nagel, Jorge Emilio; Kinney, Powell McVay; Dooner, Matthew Taylor; Wilson, Bruce Mackie; Schneider, Jr., Carl Reimers; Goeller, Keith Brian, Navigation and control system for autonomous vehicles.
  45. Lu, Yuesheng; Higgins-Luthman, Michael J., Object detection system.
  46. Wu, Yongan; Ye, Jun, Optical amplifiers with age-based pump current limiters.
  47. Bayha, Heiner; Horvath, Peter; Nicolai, Jens, Optical measuring device.
  48. Bayha, Heiner; Horvath, Peter; Nicolai, Jens; Reichert, Andreas, Optical measuring device and a method for producing a cover disc for a housing of an optical measuring device.
  49. Gusev, Yuri P.; Hertzman, Mikael; Vanin, Evgeny; Grässer, Christian, Optical pulse transmitter.
  50. Boehlau,Christian; Hipp,Johann, Optoelectric sensing device with common deflection device.
  51. Jachman, Fabian; Franzreb, Simon, Optoelectric sensor and method for the detection and distance determination of objects.
  52. Hipp, Johann, Optoelectronic detection device.
  53. Hipp, Johann, Optoelectronic distance measuring device.
  54. Heizmann, Reinhard; Hug, Gottfried; Marra, Martin; Torabi, Bahram, Optoelectronic sensor and method for the measurement of distances in accordance with light transit time principle.
  55. Ludwig, David; Azzazy, Medhat, Phase sensing and scanning time of flight LADAR using atmospheric absorption bands.
  56. Welford, David, Q-switched microlaser apparatus and method for use.
  57. Savage-Leuchs, Matthias P.; Dilley, Christian E.; Lemaire, Charles A., Q-switched oscillator seed-source for MOPA laser illuminator method and apparatus.
  58. Saccomanno, Robert J., Scanner for airborne laser system.
  59. Sayyah, Keyvan; Patterson, Pamela R.; Efimov, Oleg M., Single chip scanning lidar and method of producing the same.
  60. Retterath, James E.; Laumeyer, Robert A., System and assessment of reflective objects along a roadway.
  61. Kanter, Gregory S., System and method for measuring the phase of a modulated optical signal.
  62. Au, Kwong Wing; Touchberry, Alan B.; VanVoorst, Brian; Schewe, Jon, System and method for navigating an autonomous vehicle using laser detection and ranging.
  63. Woodward, Ted; Agarwal, Anjali; Peters, Nicholas, System and method for nonlinear optical devices.
  64. Retterath, James E.; Laumeyer, Robert A., System for road sign sheeting classification.
  65. Lenius, Samuel William; Droz, Pierre-yves, Systems and methods for selectable photodiode circuits.
  66. Breed, David S., Techniques for improving safe operation of a vehicle.
  67. Dimsdale, Jerry Samuel; West, Joseph Newhall; Lewis, Andrew Philip; Gill, Thomas Rahjit Singh, Time delay estimation.
  68. Dimsdale, Jerry Samuel; West, Joseph Newhall; Lewis, Andrew Philip; Gill, Thomas Rahjit Singh, Time delay estimation.
  69. West, Joseph Newhall; Kiser, Jon Robert; Dimsdale, Jerry Samuel, Transmission lines applied to contact free slip rings.
  70. Fetzer, Gregory J.; Sitter, Jr., David N.; Gugler, Douglas; Ryder, William L.; Griffis, Andrew J.; Miller, David; Gelbart, Asher; Bybee-Driscoll, Shannon, Ultraviolet, infrared, and near-infrared lidar system and method.
  71. Templeton, Bradley; Droz, Pierre-yves; Zhu, Jiajun, Wide-view LIDAR with areas of special attention.
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