Method and apparatus for starting an engine in a hybrid vehicle
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60W-020/00
B60K-006/547
B60W-010/08
B60K-006/48
B60W-010/06
B60W-010/02
B60W-030/192
B60W-010/115
출원번호
US-0758019
(2013-02-04)
등록번호
US-8903581
(2014-12-02)
발명자
/ 주소
Bouchon, Nicolas Louis
출원인 / 주소
Conversant Intellectual Property Management Inc.
대리인 / 주소
Conley Rose, P.C.
인용정보
피인용 횟수 :
2인용 특허 :
27
초록▼
A method and apparatus for starting an engine in a hybrid vehicle being driven by an electric motor is disclosed. The motor is operably configured to deliver mechanical power through an automatic transmission to at least one vehicle drive wheel to cause an acceleration of the vehicle. The method inv
A method and apparatus for starting an engine in a hybrid vehicle being driven by an electric motor is disclosed. The motor is operably configured to deliver mechanical power through an automatic transmission to at least one vehicle drive wheel to cause an acceleration of the vehicle. The method involves coupling the engine to the motor to cause an inertial load on the motor thus causing the motor to decelerate to a reduced rotational speed to provide a starting torque to the engine for starting the engine, and causing the automatic transmission to change gear ratio to a target gear ratio associated with the reduced rotational speed while causing the motor to decelerate, the motor being operable to deliver increased torque at the reduced rotational speed, thereby generally maintaining the acceleration of the vehicle.
대표청구항▼
1. A method for starting an engine in a hybrid vehicle, comprising: generating a first control signal to be communicated to a clutch of the hybrid vehicle, the first control signal operable to cause the clutch to couple an engine of the hybrid vehicle to an electric motor of the hybrid vehicle such
1. A method for starting an engine in a hybrid vehicle, comprising: generating a first control signal to be communicated to a clutch of the hybrid vehicle, the first control signal operable to cause the clutch to couple an engine of the hybrid vehicle to an electric motor of the hybrid vehicle such that a load is applied to the electric motor, the load causing: the electric motor to decelerate to a reduced rotational speed over a motor deceleration time period; anda starting torque to be supplied to the engine for starting the engine; andgenerating, during the motor deceleration time period, a second control signal to be communicated to an automatic transmission of the hybrid vehicle, the second control signal operable to cause the automatic transmission to shift to a target gear ratio selected such that a driving torque supplied by the electric motor at the reduced rotational speed during the motor deceleration time period is sufficient to maintain a desired acceleration of the hybrid vehicle. 2. The method of claim 1, wherein the first control signal is generated in response to a determination that an operating condition of the hybrid vehicle meets a criterion for starting the engine. 3. The method of claim 2, wherein the second control signal is generated in response to the determination that the operating condition of the hybrid vehicle meets the criterion for starting the engine. 4. The method of claim 2, wherein the determination that an operating condition of the hybrid vehicle meets the criterion for starting the engine comprises at least one of: a determination that the rotational speed of the electric motor reaches a reference speed;a determination that the hybrid vehicle reaches a reference velocity;a determination that a storage element for supplying electrical energy to the electric motor reaches a reference minimum state of charge; anda determination that a voltage at which electrical energy supplied to the electric motor reaches a reference minimum level. 5. The method of claim 2, wherein: the first control signal is generated a first time period after the operating condition of the hybrid vehicle meets the criterion for starting the engine; andthe second control signal is generated a second time period after the operating condition of the hybrid vehicle meets the criterion for starting the engine. 6. The method of claim 5, wherein the first and second time periods are selected such that a substantially constant acceleration of the hybrid vehicle is maintained while starting the engine. 7. The method of claim 2, further comprising generating an engine start signal in response to the operating condition of the hybrid vehicle meeting the criterion for starting the engine. 8. The method of claim 7, wherein the engine start signal comprises at least one of: an ignition signal for controlling ignition of the engine; ora fuel control signal for causing fuel to be supplied to the engine. 9. The method of claim 8, wherein the engine start signal is generated a third time period after the operating condition of the hybrid vehicle meets the criterion for starting the engine, the third time period being selected such that the engine is allowed sufficient time to reach a rotational speed corresponding to the rotational speed of the electric motor. 10. The method of claim 1, wherein the first control signal is operable to cause the clutch to couple the engine to the electric motor by causing the clutch to move from a disengaged state to an engaged state, the clutch being located between the engine and the electric motor. 11. The method of claim 10, wherein the first control signal comprises a time-varying amplitude representing a desired amount of engagement of the clutch between the disengaged state and the engaged state in order to control an amount of slippage of the clutch when coupling the engine to the electric motor. 12. The method of claim 1, wherein: the second control signal is operable to cause the automatic transmission to shift to the target gear ratio from a previous gear ratio; andthe target gear ratio is higher than the previous gear ratio. 13. An apparatus for starting an engine in a hybrid vehicle, comprising: a controller configured to communicate with a clutch and an automatic transmission of the hybrid vehicle, the controller operable to:generate a first control signal to be communicated to the clutch, the first control signal operable to cause the clutch to couple the engine of the hybrid vehicle to an electric motor of the hybrid vehicle such that a load is applied to the electric motor, the load causing: the electric motor to decelerate to a reduced rotational speed over a motor deceleration time period; anda starting torque to be supplied to the engine for starting the engine; and generate, during the motor deceleration time period, a second control signal to be communicated to the automatic transmission of the hybrid vehicle, the second control signal operable to cause the automatic transmission to shift to a target gear ratio selected such that a driving torque supplied by the electric motor at the reduced rotational speed during the motor deceleration time period is sufficient to maintain a desired acceleration of the hybrid vehicle. 14. The apparatus of claim 13, wherein the first control signal is generated in response to a determination that an operating condition of the hybrid vehicle meets a criterion for starting the engine. 15. The apparatus of claim 14, wherein the second control signal is generated in response to the determination that the operating condition of the hybrid vehicle meets the criterion for starting the engine. 16. The apparatus of claim 14, wherein the determination that an operating condition of the hybrid vehicle meets the criterion for starting the engine comprises at least one of: a determination that the rotational speed of the electric motor reaches a reference speed;a determination that the hybrid vehicle reaches a reference velocity;a determination that a storage element for supplying electrical energy to the electric motor reaches a reference minimum state of charge; anda determination that a voltage at which electrical energy supplied to the electric motor reaches a reference minimum level. 17. The apparatus of claim 14, wherein: the first control signal is generated a first time period after the operating condition of the hybrid vehicle meets the criterion for starting the engine; andthe second control signal is generated a second time period after the operating condition of the hybrid vehicle meets the criterion for starting the engine. 18. The apparatus of claim 17, wherein the first and second time periods are selected such that a substantially constant acceleration of the hybrid vehicle is maintained while starting the engine. 19. The apparatus of claim 14, wherein the controller is further operable to generate an engine start signal in response to the operating condition of the hybrid vehicle meeting the criterion for starting the engine. 20. The apparatus of claim 19, wherein the engine start signal comprises at least one of: an ignition signal for controlling ignition of the engine; ora fuel control signal for causing fuel to be supplied to the engine. 21. The apparatus of claim 20, wherein the engine start signal is generated a third time period after the operating condition of the hybrid vehicle meets the criterion for starting the engine, the third time period being selected such that the engine is allowed sufficient time to reach a rotational speed corresponding to the rotational speed of the electric motor. 22. The apparatus of claim 13, wherein the first control signal is operable to cause the clutch to couple the engine to the electric motor by causing the clutch to move from a disengaged state to an engaged state, the clutch being located between the engine and the electric motor. 23. The apparatus of claim 22, wherein the first control signal comprises a time-varying amplitude representing a desired amount of engagement of the clutch between the disengaged state and the engaged state in order to control an amount of slippage of the clutch when coupling the engine to the electric motor. 24. The apparatus of claim 13, wherein: the second control signal is operable to cause the automatic transmission to shift to the target gear ratio from a previous gear ratio; andthe target gear ratio is higher than the previous gear ratio. 25. A hybrid vehicle, comprising: an engine;an electric motor;a clutch located between the engine and the electric motor;an automatic transmission; anda controller configured to communicate with the clutch and the automatic transmission, the controller operable to: generate a first control signal to be communicated to the clutch, the first control signal operable to cause the clutch to couple the engine to the electric motor such that a load is applied to the electric motor, the load causing: the electric motor to decelerate to a reduced rotational speed over a motor deceleration time period; anda starting torque to be supplied to the engine for starting the engine; andgenerate, during the motor deceleration time period, a second control signal to be communicated to the automatic transmission, the second control signal operable to cause the automatic transmission to shift to a target gear ratio selected such that a driving torque supplied by the electric motor at the reduced rotational speed during the motor deceleration time period is sufficient to maintain a desired acceleration of the hybrid vehicle. 26. The hybrid vehicle of claim 25, wherein the first control signal is generated in response to a determination that an operating condition of the hybrid vehicle meets a criterion for starting the engine. 27. The hybrid vehicle of claim 26, wherein the second control signal is generated in response to a determination that the operating condition of the hybrid vehicle meets the criterion for starting the engine. 28. The hybrid vehicle of claim 26, wherein the determination that an operating condition of the hybrid vehicle meets the criterion for starting the engine comprises at least one of: a determination that the rotational speed of the electric motor reaches a reference speed;a determination that the hybrid vehicle reaches a reference velocity;a determination that a storage element for supplying electrical energy to the electric motor reaches a reference minimum state of charge; anda determination that a voltage at which electrical energy supplied to the electric motor reaches a reference minimum level. 29. The hybrid vehicle of claim 26, wherein: the first control signal is generated a first time period after the operating condition of the hybrid vehicle meets the criterion for starting the engine; andthe second control signal is generated a second time period after the operating condition of the hybrid vehicle meets the criterion for starting the engine. 30. The hybrid vehicle of claim 29, wherein the first and second time periods are selected such that a substantially constant acceleration of the hybrid vehicle is maintained while starting the engine. 31. The hybrid vehicle of claim 26, wherein the controller is further operable to generate an engine start signal in response to the operating condition of the hybrid vehicle meeting the criterion for starting the engine. 32. The hybrid vehicle of claim 31, wherein the engine start signal comprises at least one of: an ignition signal for controlling ignition of the engine; orfuel control signal for causing fuel to be supplied to the engine. 33. The hybrid vehicle of claim 32, wherein the engine start signal is generated a third time period after the operating condition of the hybrid vehicle meets the criterion for starting the engine, the third time period being selected such that the engine is allowed sufficient time to reach a rotational speed corresponding to the rotational speed of the electric motor. 34. The hybrid vehicle of claim 25, wherein the first control signal comprises a time-varying amplitude representing a desired amount of engagement of the clutch between the disengaged state and the engaged state in order to control an amount of slippage of the clutch when coupling the engine to the electric motor. 35. The hybrid vehicle of claim 25, wherein: the second control signal is operable to cause the automatic transmission to shift to the target gear ratio from a previous gear ratio; andthe target gear ratio is higher than the previous gear ratio.
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이 특허에 인용된 특허 (27)
Phillips, Anthony Mark; Bailey, Kathleen Ellen; Jankovic, Miroslava, Control system and method for a parallel hybrid electric vehicle.
Ito,Masatoshi; Oba,Hidehiro; Endo,Hiroatsu; Hoshiya,Kazumi, Hybrid drive system wherein clutch is engaged when engine speed has exceeded motor speed upon switching from motor drive mode to engine drive mode.
Ito,Masatoshi; Oba,Hidehiro; Endo,Hiroatsu; Hoshiya,Kazumi, Hybrid drive system wherein clutch is engaged when engine speed has exceeded motor speed upon switching from motor drive mode to engine drive mode.
Tabata Atsushi,JPX ; Taga Yutaka,JPX ; Ibaraki Ryuji,JPX ; Hata Hiroshi,JPX ; Mikami Tsuyoshi,JPX, Hybrid vehicle drive system having means for using at least engine as drive power source in special vehicle operating s.
Tsuneyoshi,Takashi; Oshidari,Toshikazu; Imazu,Tomoya; Joe,Shinichiro; Nakajima,Yuki, Method for starting engine of vehicle with hybrid transmission and apparatus for carrying out the method.
Cawthorne,William R.; Heap,Anthony H.; Hubbard,Gregory A., Optimal selection of input torque considering battery utilization for a hybrid electric vehicle.
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