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Control method for a variable geometry turbocharger in a diesel engine having exhaust gas recirculation

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • F02D-023/00
출원번호 US-0237634 (1999-01-26)
발명자 / 주소
  • Kolmanovsky Ilya V.
  • Van Nieuwstadt Michiel J.
  • Moraal Paul Eduard,DEX
출원인 / 주소
  • Ford Global Technologies, Inc.
대리인 / 주소
    Drouillard
인용정보 피인용 횟수 : 82  인용 특허 : 5

초록

A method of estimating the actuator position of a variable geometry turbocharger (VGT) of a compression ignition engine having an exhaust gas recirculation (EGR) system. The method includes the steps of determining the exhaust manifold temperature (T.sub.2), determining the mass flow rate (W.sub.2t)

대표청구항

[ What is claimed is:] [1.] A method of estimating the actuator position of a variable geometry turbocharger (VGT) in a compression ignition engine having an EGR system including a valve connecting an intake manifold and exhaust manifold of the engine, said VGT including a compressor connected to a

이 특허에 인용된 특허 (5)

  1. Matthews Gregory P. (Bloomfield Hills MI) Dudek Kenneth P. (Rochester Hills MI) Folkerts Charles H. (Troy MI), Apparatus with dynamic prediction of EGR in the intake manifold.
  2. Hanauer Horst (Althtte DEX) Khn Michael (Filderstadt DEX), Arrangement for controlling the boost pressure in an internal-combustion engine supercharged by an exhaust-gas turbochar.
  3. Younessi Ramin (Hagerstown MD) Rini Guy T. (Hagerstown MD), Continuously proportional variable geometry turbocharger system and method of control.
  4. Komoriya Isao (Wako JPX) Hasegawa Yusuke (Wako JPX) Maki Hidetaka (Wako JPX) Akazaki Shusuke (Wako JPX) Kitagawa Hiroshi (Wako JPX) Kitamura Toru (Wako JPX), EGR rate estimation system for internal combustion engine.
  5. Klopp Gerhard O. (Calgary CAX), Exhaust gas recirculation system for a compression ignition engine and a method of controlling exhaust gas recirculation.

이 특허를 인용한 특허 (82)

  1. Rollinger, John Eric; Bell, David; Cullen, Michael John; Fulton, Brien Lloyd, Adaptive learning system and method of vane position for a variable geometry turbocharger.
  2. Weber,James R.; Leman,Scott A.; Coleman,Gerald N.; Duffy,Kevin P.; Fluga,Eric C.; Kilkenny,Jonathan P.; Afjeh,Homa, Air and fuel supply system for a combustion engine.
  3. Coleman,Gerald N.; Duffy,Kevin P.; Faulkner,Stephen A.; Fluga,Eric C.; Kilkenny,Jonathan P.; Leman,Scott A.; Opris,Cornelius N.; Verkiel,Maarten; Weber,James R., Air and fuel supply system for combustion engine.
  4. Weber,James Richard; Leman,Scott A., Air and fuel supply system for combustion engine.
  5. Birkner, Christian; Schwarte, Anselm, Apparatus for controlling an internal combustion engine having an exhaust gas turbocharger and an exhaust gas recirculation apparatus.
  6. Adachi, Yusuke, Apparatus for estimating exhaust gas temperature of internal combustion engine.
  7. Stewart,Gregory E.; Shahed,Syed M.; Kolavennu,Soumitri N., Calibration of engine control systems.
  8. Priyankar S. Balekai ; Scott Anderson ; Steven M. Bandy, Closed loop diesel engine EGR control including event monitoring.
  9. Bryant, Clyde C., Cold air super-charged internal combustion engine, working cycle and method.
  10. Weber,James R.; Leman,Scott A.; Coleman,Gerald N.; Duffy,Kevin P.; Fluga,Eric C.; Kilkenny,Jonathan P., Combustion engine including cam phase-shifting.
  11. Weber,James R.; Leman,Scott A.; Coleman,Gerald N.; Duffy,Kevin P.; Fluga,Eric C.; Kilkenny,Jonathan P.; Pierpoint,David A., Combustion engine including fluidically-driven engine valve actuator.
  12. Fuxman, Adrian Matias; Pachner, Daniel, Condition-based powertrain control system.
  13. Stewart, Greg; Borrelli, Francesco; Pekar, Jaroslav, Configurable automotive controller.
  14. Inoue, Masahiro, Control device for internal combustion engine having an external exhaust gas recirculation system.
  15. Cattani, Luis C.; Uchanski, Michael; Rodriguez, Rogelio; Cigler, James R.; Schipper, Jeremy G.; Chen, Jer Sheng; Khadilkar, Dileep; Kanchanavally, Shree C.; Zagone, John R.; Cornelius, Daniel, Control method for variable geometry exhaust turbine.
  16. Arnold, Steven Don, Control method for variable geometry turbocharger and related system.
  17. Wesley J. Terry ; Mathew J. Seiberlich ; Brian J. Murphy, Control of a variable geometry turbocharger by sensing exhaust pressure.
  18. Bowyer,Robert Owen, Control system.
  19. Scherngell, Guenther; Zaehner, Werner; Spuler, Juerg, Control system for a variable-geometry turbocharger.
  20. Arnold,Steven Don, Control system for variable geometry turbocharger.
  21. Buckland, Julia Helen; Kolmanovsky, Ilya V.; Lezhnev, Lev, Coordinated control of electronic throttle and variable geometry turbocharger in boosted stoichiometric spark ignition engines.
  22. Stewart, Greg; Pekar, Jaroslav; Pachner, Daniel, Coordinated engine and emissions control system.
  23. Stewart,Gregory E.; Shahed,Syed M.; Borrelli,Francesco, Coordinated multivariable control of fuel and air in engines.
  24. Samad,Tariq; Shahed,Syed M.; Lu,Joseph Z.; Stewart,Gregory E.; Ravlena,Vladimir, Distributed control architecture for powertrains.
  25. Shahed,Syed M.; Hampson,Gregory J., EGR system.
  26. Leman, Scott A.; Cornell, Sean O., Efficient internal combustion engine valve actuator.
  27. Craig Savonen ; Phillip F. Rimnac ; Richard M. Avery, Jr., Electronic controlled engine exhaust treatment system to reduce NOx emissions.
  28. Stewart, Gregory E.; Rhodes, Michael L., Emissions sensors for fuel control in engines.
  29. Stewart,Gregory E.; Rhodes,Michael L., Emissions sensors for fuel control in engines.
  30. Rouphael, Roger, Engine air supply control method which is intended, for example, for the control of a turbocharged engine.
  31. Pachner, Daniel; Pekar, Jaroslav, Engine and aftertreatment optimization system.
  32. McCauley, Courtney William; Sheidler, Alan David, Engine combustion air cyclonic pre-cleaner embodying throttling member adjusted in accordance with engine load.
  33. Avery, Jr., Richard Michael; Baird, Matthew Thomas; Lewallen, Brian Andrew; Golub, Tomislav; Zagone, Peter, Engine control based on exhaust back pressure.
  34. Stewart, Gregory E.; Rhodes, Michael L., Engine controller.
  35. Stewart, Gregory E.; Rhodes, Michael L., Engine controller.
  36. Stewart, Gregory E., Engine exhaust heat exchanger.
  37. Cornell,Sean O.; Leman,Scott Alan, Engine valve actuation system.
  38. Cornell,Sean O.; Leman,Scott Alan, Engine valve actuation system.
  39. Cornell,Sean O.; Leman,Scott Alan, Engine valve actuation system.
  40. Cornell,Sean O.; Leman,Scott Alan, Engine valve actuation system.
  41. Leman, Scott A., Engine valve actuator.
  42. Leman,Scott A.; Pierpont,David Andrew, Engine valve actuator providing Miller cycle benefits.
  43. Havlena, Vladimir; Lu, Joseph Z.; Shahed, Syed M.; Rhodes, Michael L.; Samad, Tariq, Exhaust catalyst system.
  44. Martin Anthony Romzek ; Richard Marcis, Exhaust gas recirculation pressure differential sensor error compensation.
  45. Kolavennu,Soumitri N., Exhaust gas recirculation system.
  46. Pachner, Daniel, Identification approach for internal combustion engine mean value models.
  47. Wayne Waszkiewicz ; Christopher C. Greentree, Intelligent electric actuator for control of a turbocharger with an integrated exhaust gas recirculation valve.
  48. Bryant, Clyde C., Internal combustion engine and working cycle.
  49. Bryant,Clyde C., Internal combustion engine and working cycle.
  50. Bryant,Clyde C., Internal combustion engine and working cycle.
  51. Wild, Ernst; Falk, Mario, Method and device for measuring a temperature variable in a mass flow pipe.
  52. Burkhardt, Thomas; Teiner, Markus, Method and device for the control and diagnosis of an exhaust gas turbocharger.
  53. van Nieuwstadt, Michiel J., Method and system for controlling EGR rate in diesel engines.
  54. Cullen,Michael John, Method and system for inferring exhaust temperature of a variable compression ratio engine.
  55. Kihas, Dejan, Method and system for updating tuning parameters of a controller.
  56. Kihas, Dejan, Method and system for updating tuning parameters of a controller.
  57. Stewart, Gregory E., Method and system for using a measure of fueling rate in the air side control of an engine.
  58. Stewart,Gregory E., Method and system for using a measure of fueling rate in the air side control of an engine.
  59. Barba,Christian; Dietz,Martin; Moll,Guenter, Method for determining an exhaust gas recirculation quantity for an internal combustion engine provided with exhaust gas recirculation.
  60. Roettger, Daniel; Vigild, Christian Winge; Chevalier, Alain Marie Roger; Petrovic, Simon; Karvounis, Evangelos, Method for determining the exhaust back pressure upstream of a turbine of an exhaust-driven turbocharger.
  61. Barba,Christian; Dietz,Martin; Moll,Guenter, Method for determining the exhaust-gas recirculation quantity.
  62. Piper, Erik L., Method for maximizing transient variable geometry turbine response in an internal combustion engine.
  63. Weisman ; II Steve Miller ; Kreso Admir ; May Andrew, Method of controlling an engine with an EGR system.
  64. Hand, III, Michael J.; Brewbaker, Thomas Alan; Van Nieuwstadt, Michiel J.; Fulton, Brien Lloyd, Methods and systems for boost control.
  65. Arnold, Steven Don, Methods and systems for variable geometry turbocharger control.
  66. Stewart,Gregory E.; Kolavennu,Soumitri N.; Borrelli,Francesco; Hampson,Gregory J.; Shahed,Syed M.; Samad,Tariq; Rhodes,Michael L., Multivariable control for an engine.
  67. Wolk, Matthew Thomas, NOx emission control using large volume EGR.
  68. Stewart, Gregory; Shahed, Syed M.; Borrelli, Francesco; Hampson, Gregory J., Pedal position and/or pedal change rate for use in control of an engine.
  69. Stewart,Gregory E.; Shahed,Syed M.; Borrelli,Francesco; Hampson,Gregory J., Pedal position and/or pedal change rate for use in control of an engine.
  70. Robel,Wade James; Cornell,Sean O., System and method for actuating an engine valve.
  71. Ramamurthy,Ravishankar; Vaduva,Laurentiu; Krejo,Admir, System and method for backpressure compensation for controlling exhaust gas particulate emissions.
  72. Chi, John N.; Brahma, Indranil, System and method for estimating engine exhaust manifold operating parameters.
  73. Chi, John N.; Brahma, Indranil, System and method for estimating engine exhaust manifold operating parameters.
  74. Hofbauer, Peter, System and method to control an electronically-controlled turbocharger.
  75. Yue Yun Wang ; John M. Mulloy ; Mark W. Pyclik, System for estimating turbocharger compressor outlet temperature.
  76. Larry J. Brackney ; Thomas A. Dollmeyer ; George Brunemann, System for managing charge flow and EGR fraction in an internal combustion engine.
  77. Rhodes, Michael L.; Krafthefer, Brian C.; Kittleson, David B.; Ma, Hogbin, System for particulate matter sensor signal processing.
  78. Rhodes, Michael L.; Krafthefer, Brian C.; Kittleson, David B.; Ma, Hongbin, System for particulate matter sensor signal processing.
  79. Kolmanovsky Llya V. ; Sun Jing ; Wang Leyi, Torque control strategy for engines with continuously variable transmission.
  80. Stewart,Gregory E.; Kolavennu,Soumitri N.; Borrelli,Francesco; Hampson,Gregory J.; Shahed,Syed M.; Samad,Tariq; Rhodes,Michael L., Use of sensors in a state observer for a diesel engine.
  81. Pekar, Jaroslav; Stewart, Gregory E., Using model predictive control to optimize variable trajectories and system control.
  82. Markham, Thomas R., Vehicle security module system.
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