IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0738434
(2008-09-30)
|
등록번호 |
US-8457822
(2013-06-04)
|
우선권정보 |
FR-07 58413 (2007-10-18) |
국제출원번호 |
PCT/FR2008/051747
(2008-09-30)
|
§371/§102 date |
20101129
(20101129)
|
국제공개번호 |
WO2009/050402
(2009-04-23)
|
발명자
/ 주소 |
- Ketfi-Cherif, Ahmed
- Gati, Mehdi
- Mensler, Michel
- Pognant-Gros, Philippe
|
출원인 / 주소 |
|
대리인 / 주소 |
Oblon, Spivak, McClelland, Maier & Neustadt, L.L.P.
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
3 |
초록
▼
A method for controlling a hybrid power unit with power bypass for an automobile including at least two driving wheels, wherein the power unit includes a thermal engine, at least two electric machines, and an infinitely variable transmission mechanically connecting the thermal engine, the two electr
A method for controlling a hybrid power unit with power bypass for an automobile including at least two driving wheels, wherein the power unit includes a thermal engine, at least two electric machines, and an infinitely variable transmission mechanically connecting the thermal engine, the two electric machines, and the driving wheels. In the method, an initially stopped thermal engine is brought, in an independent manner and in plural operation phases, to a rotation speed that is sufficient for participating in propulsion of the vehicle, the vehicle moving under action of the electric machines.
대표청구항
▼
1. A method for controlling a hybrid power unit with power bypass for an automobile including at least two driving wheels, the hybrid power unit including a heat engine, at least two electric machines, and an infinitely variable transmission mechanically connecting the heat engine, the two electric
1. A method for controlling a hybrid power unit with power bypass for an automobile including at least two driving wheels, the hybrid power unit including a heat engine, at least two electric machines, and an infinitely variable transmission mechanically connecting the heat engine, the two electric machines, and the driving wheels, the method comprising: bringing an initially stopped heat engine, in an independent manner and in plural operating phases, to a rotation speed that is sufficient to be able to participate in propulsion of the vehicle, the vehicle moving under action of the electric machines, andduring a first operating phase defined by a rotation speed of the heat engine below a first stored value, controlling the two electric machines in an open loop mode relative to the rotation speed of the heat engine for the heat engine to reach a rotation speed that is sufficient to be detected,wherein at least three operating phases are defined by comparing the rotation speed of the heat engine with at least one stored first value and one stored second value. 2. The control method as claimed in claim 1, wherein, during a second operating phase defined by a rotation speed of the heat engine between the first stored value and the second stored value, the two electric machines are controlled in a closed loop mode relative to the rotation speed of the heat engine for the heat engine to reach a rotation speed that is sufficient to enable the heat engine to start. 3. The control method as claimed in claim 1, wherein, during a third operating phase defined by a rotation speed of the heat engine above the second stored value, the heat engine and the two electric machines are controlled in a closed loop mode relative to the rotation speed of the heat engine. 4. A system for controlling a hybrid power unit with power bypass for an automobile including at least two driving wheels, the system comprising: a power unit including: a heat engine,at least two electric machines, andan infinitely variable transmission mechanically connecting the heat engine, the two electric machines and the driving wheels;an electronic control unit, the electronic control unit including: a rotation speed estimation unit located on an output shaft of the heat engine,an indirect determination unit emitting values of rotation speed of the heat engine, of wheel resisting torque, and of resisting torque of the heat engine as a function of rotation speeds of the electric machines and of the heat engine,a torque determining unit configured to determine torque setpoints of the heat engine and of the electric machines,an operating phase determining unit configured to determine an operating phase as a function of the rotation speed of the heat engine,a feedback loop making it possible to control the heat engine, anda pilot unit configured to pilot the feedback loop making it possible to deactivate the feedback loop as a function of a current operating phase. 5. The control system as claimed in claim 4, further comprising an interface between a driver and the vehicle, the torque determining unit emitting values of the torque setpoints of the electric machines and of the heat engine as a function of requests from the driver originating from the interface between the driver and the vehicle, of the resisting torque of the heat engine, and of the wheel resisting torque. 6. The control system as claimed in claim 4, further comprising a memory, the operating phase determining unit receiving a signal emitted by the rotation speed estimation unit and a signal originating from the memory, and emitting as an output an indication of the current operating phase. 7. The control system as claimed in claim 6, further comprising a heat engine control unit that emits a signal triggering starting of the heat engine as a function of the signal received from the operating phase determining unit.
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