Method for controlling starting of an engine in a hybrid electric vehicle powertrain
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06G-007/70
G06G-007/00
출원번호
US-0292980
(2005-12-02)
발명자
/ 주소
McGee,Ryan
Niessen,Paul
Syed,Fazal
Czubay,John
Butcher,Jonathan
Kuang,Ming
출원인 / 주소
Ford Global Technologies, LLC
대리인 / 주소
Brooks &
인용정보
피인용 횟수 :
12인용 특허 :
4
초록▼
A method for controlling starting of an internal combustion engine in a hybrid electric vehicle powertrain having multiple power flow paths to vehicle traction wheels from the engine and from an electric motor. A smoothness factor is calculated to determine how smooth an engine start should be. Engi
A method for controlling starting of an internal combustion engine in a hybrid electric vehicle powertrain having multiple power flow paths to vehicle traction wheels from the engine and from an electric motor. A smoothness factor is calculated to determine how smooth an engine start should be. Engine operating variables regulate engine smoothness during engine start events as determined by the calculated smoothness factor appropriate for selected vehicle operating conditions.
대표청구항▼
What is claimed: 1. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor, a battery, a generator and transmission torque delivery elements that define, in part, inte
What is claimed: 1. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor, a battery, a generator and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; measuring battery discharge power limit and determining a temporary smoothness factor as a function of the battery discharge power limit; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode. 2. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; measuring battery discharge power limit and determining a temporary smoothness factor as a function of the battery discharge power limit; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 3. The method set forth in claim 2, wherein the multiple engine operating variables include engine speed command profile, engine throttle setting, fuel injection timing, engine spark timing and engine valve timing. 4. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor torque and speed relationship, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; determining a temporary smoothness factor as a function of the battery discharge power limit; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode. 5. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; determining a temporary smoothness factor as a function of a battery discharge power limit; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 6. The method set forth in claim 5, wherein the multiple engine operating variables include engine speed command profile, engine throttle setting, fuel injection timing, engine spark timing, and engine valve timing. 7. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring-accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; determining a temporary smoothness factor as a function of a battery discharge power limit; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode. 8. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; determining a temporary smoothness factor as a function of a battery discharge power limit; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 9. The method set forth in claim 8, wherein the selected engine operating variables include engine speed command profile, engine throttle setting, fuel injection timing, engine spark timing and engine valve timing. 10. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode. 11. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 12. The method set forth in claim 11, wherein the multiple engine operating variables include engine speed command profile, engine throttle setting, fuel injection timing, engine spark timing and engine valve timing. 13. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor, a battery, a generator and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a smoothness factor as a function of battery voltage; determining battery discharge power limit and determining a temporary smoothness factor as a function of the battery discharge power limit; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness and when the engine is in a start-up mode. 14. A-method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: determining whether the vehicle is in a park mode or a neutral mode and initializing the method by determining a temporary smoothness factor depending on park or neutral selection and setting it to a value corresponding to maximum smoothness if the vehicle is in a park mode or a neutral mode; measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a smoothness factor as a function of battery voltage; determining battery discharge power limit and determining a temporary smoothness factor as a function of the battery discharge power limit; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 15. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor, a battery, a generator and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; measuring battery discharge power limit and determining a temporary smoothness factor as a function of the battery discharge power limit; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode. 16. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; measuring battery discharge power limit and determining a temporary smoothness factor as a function of the battery discharge power limit; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 17. The method set forth in claim 16, wherein the multiple engine operating variables include engine speed command profile, engine throttle setting, fuel injection timing, engine spark timing and engine valve timing. 18. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor torque and speed relationship, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; determining a temporary smoothness factor as a function of the battery discharge power limit; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode. 19. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; determining a temporary smoothness factor as a function of a battery discharge power limit; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 20. The method set forth in claim 19, wherein the multiple engine operating variables include engine speed command profile, engine throttle setting, fuel injection timing, engine spark timing, and engine valve timing. 21. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; determining a temporary smoothness factor as a function of a battery discharge power limit; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode. 22. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; determining a temporary smoothness factor as a function of a battery discharge power limit; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 23. The method set forth in claim 22, wherein the selected engine operating variables include engine speed command profile, engine throttle setting, fuel injection timing, engine spark timing and engine valve timing. 24. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode. 25. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a temporary smoothness factor as a function of battery voltage; measuring engine coolant temperature and determining a temporary smoothness factor as a function of engine coolant temperature; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 26. The method set forth in claim 25, wherein the multiple engine operating variables include engine speed command profile, engine throttle setting, fuel injection timing, engine spark timing and engine valve timing. 27. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor, a battery, a generator and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a smoothness factor as a function of battery voltage; determining battery discharge power limit and determining a temporary smoothness factor as a function of the battery discharge power limit; and selecting the determined temporary smoothness factor with a value corresponding to least smoothness and when the engine is in a start-up mode. 28. A method for determining an engine smoothness factor in an engine start event for an accelerator-controlled engine in a vehicle having a hybrid powertrain that includes an electric motor and transmission torque delivery elements that define, in part, integrated power flow paths to vehicle traction wheels whereby the engine may be turned off during power delivery from the motor, the method comprising the steps of: measuring accelerator position and determining a temporary smoothness factor as a function of accelerator position; measuring battery voltage and determining a smoothness factor as a function of battery voltage; determining battery discharge power limit and determining a temporary smoothness factor as a function of the battery discharge power limit; selecting the determined temporary smoothness factor with a value corresponding to least smoothness when the engine is in a start-up mode; and adjusting engine start smoothness using at least one engine operating variable selected from multiple engine operating variables, selection of the at least one engine operating variable being determined by a calibrated relationship of the selected temporary smoothness factor and each selected engine operating variable. 29. A method for controlling smoothness of an engine start event for a hybrid electric vehicle powertrain having an engine and an electric motor for delivering driving power to vehicle traction wheels, the smoothness of the engine start being related to a smoothness factor, the method comprising the steps of: determining vehicle operating conditions; determining a smoothness factor corresponding to each vehicle operating condition whereby smoothness of an engine start is indicated by the smoothness factor; and effecting desired smoothness of an engine start event for at least one given vehicle operating condition by using a calibrated relationship of smoothness factor and the given vehicle operating condition. 30. The method set forth in claim 29, wherein the smoothness factor used in effecting the desired smoothness of an engine start event is the smoothness factor corresponding to the least smoothness of the engine start event.
Alexander J. Long, III ; James B. Long ; Frank J. Samstag, Hybrid electric vehicle with electric motor providing strategic power assist to load balance internal combustion engine.
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