Vehicle and method for controlling engine start in a vehicle
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-007/00
G06F-017/00
G06F-019/00
출원번호
US-0617991
(2009-11-13)
등록번호
US-8565990
(2013-10-22)
발명자
/ 주소
Ortmann, Walter Joseph
Colvin, Daniel Scott
Masterson, Brandon R.
Baldwin, Reid Alan
Silveri, Andrew John
Connolly, Francis T.
Kraska, Marvin Paul
출원인 / 주소
Ford Global Technologies, LLC.
대리인 / 주소
Kelley, David B.
인용정보
피인용 횟수 :
14인용 특허 :
32
초록▼
A vehicle includes a motor/generator, a starter motor, a disconnect clutch disposed between the engine and the motor/generator, and at least one clutch disposed between the motor/generator and the vehicle drive wheels. When an engine start is requested, various parameters are controlled to ensure a
A vehicle includes a motor/generator, a starter motor, a disconnect clutch disposed between the engine and the motor/generator, and at least one clutch disposed between the motor/generator and the vehicle drive wheels. When an engine start is requested, various parameters are controlled to ensure a smooth engine start wherein driveline torque disturbances are minimized. The starter motor is used to crank the engine upon an engine start request, thereby eliminating the need to transfer torque from the motor/generator to the engine. This helps to further reduce torque disturbances in the driveline when the engine is started.
대표청구항▼
1. A method for starting an engine in a hybrid vehicle being driven by an electric machine, the vehicle having a first clutch located between the engine and the starter motor and at least one other clutch disposed between the electric machine and vehicle drive wheels, the at least one other clutch b
1. A method for starting an engine in a hybrid vehicle being driven by an electric machine, the vehicle having a first clutch located between the engine and the starter motor and at least one other clutch disposed between the electric machine and vehicle drive wheels, the at least one other clutch being selectively engageable for facilitating torque transfer between the electric machine and the vehicle drive wheels, the method comprising: initiating operation of a starter motor;reducing the pressure of the first clutch to a second level while the starter motor is operating;detecting engine start;stopping the starter motor;increasing the speed of the engine to approach that of the electric machine;engaging a first clutch connecting the engine to the electric machine;requesting an engine shutdown in response to a reduced engine demand and disengaging the first clutch;requesting an engine start after an engine shutdown is initiated and the engine is still operating in response to an increased engine demand;initiating slip in at least one of the at least one other clutch; andraising the pressure of the first clutch to to facilitate torque transfer from the electric machine to the engine when the slip in the at least one of the at least one other clutch has reached a predetermined level. 2. The method of claim 1, wherein engine start is detected when the engine outputs positive torque. 3. The method of claim 1, the vehicle wherein the at least one other clutch including a plurality of transmission clutches, and at least a portion of an engine start sequence occurs during a transmission downshift, the method further comprising: controlling oncoming and offgoing transmission clutches during a downshift according to a predetermined shift schedule, thereby effecting slip between the electric machine and the vehicle drive wheels; andcontrolling the engine using speed control based on a speed profile determined from a difference between the engine speed and the speed of the electric machine. 4. The method of claim 1, wherein the step of engaging the first clutch is performed after the speed of the engine is within a calibratable level of the speed of the electric machine. 5. The method of claim 1, further comprising: operating the electric machine using torque control according to driver demand;controlling the slip in the launch clutch around a target slip; andincreasing torque output of the electric machine when a detectable drop in the launch clutch slip occurs. 6. The method of claim 5, further comprising controlling the pressure in the first clutch according to a closed loop pressure control to maintain a slip profile based on the engine speed. 7. A method for starting an engine in a hybrid vehicle being driven by an electric machine, the vehicle having a first clutch located between the engine and the starter motor and at least one other clutch disposed between the electric machine and vehicle drive wheels, the at least one other clutch being selectively engageable for facilitating torque transfer between the electric machine and the vehicle drive wheels, the method comprising: requesting an engine start when the engine is shutdown and a first clutch connecting the engine to the electric machine is open;initiating operation of the starter motor such that torque is transferred from the starter motor to the engine;raising the pressure in a first level to a first level, while operating the starter motor, to cause the first clutch to slip such that less than an engine turnover torque is transferred from the electric machine to the engine;stopping the starter motor upon detecting engine start;fully engaging the first clutch;controlling oncoming and offgoing transmission clutches during a downshift according to a predetermined shift schedule, thereby effecting slip between the electric machine and the vehicle drive wheels;determining an amount of slip between the electric machine and the vehicle drive wheels;continuing to control the on-going and offgoing clutches according to the predetermined shift schedule if the determined slip is above a target slip; andcontrolling the on-going and offgoing clutches through a closed loop control around the target slip if the determined slip is not above the target slip. 8. The method of claim 7, wherein the step of operating the electric machine is performed such that the electric machine is operated using torque control according to a driver demand for torque. 9. The method of claim 7, wherein the electric machine is not operating when the engine start is requested, and the step of operating the electric machine is performed such that the electric machine is operated in speed control to control the speed of the electric machine within a calibratable level below a desired engine idle speed. 10. The method of claim 7, further comprising: requesting an engine start after an engine shutdown is initiated and the engine is still operating;initiating slip in the launch clutch; andraising the pressure of the first clutch to a third level to facilitate torque transfer from the electric machine to the engine when the slip in the launch clutch has reached a predetermined level. 11. The method of claim 10, further comprising: operating the electric machine using torque control according to driver demand;controlling the slip in the launch clutch around a target slip; andincreasing torque output of the electric machine when a detectable drop in the launch clutch slip occurs. 12. The method of claim 11, further comprising controlling the pressure in the first clutch according to a closed loop pressure control to maintain a slip profile based on the engine speed. 13. A hybrid vehicle comprising: an engine;a starter motor for rotating the engine to facilitate an engine start;an electric machine operable to propel the vehicle and to rotate the engine;a first clutch disposed between the engine and the electric machine for selectively connecting the engine to the electric machine; anda control system including at least one controller, the control system being configured to:request an engine start when the engine is shutdown and the first clutch is open; operate the electric machine;initiate operation of the starter motor such that torque is transferred from the starter motor to the engine;reduce the pressure of the first clutch to a second level while the starter motor is operating;fuel the engine, thereby facilitating torque production by the engine;detect engine start;stop the starter motor;engage the first clutch;wherein the control system is further configured to: control oncoming and offgoing transmission clutches during a downshift according to a predetermined shift schedule to effect slip between the electric machine and the vehicle drive wheels;determine an amount of slip between the electric machine and the vehicle drive wheels;continue to control the on-going and offgoing clutches according to the predetermined shift schedule if the determined slip is above a target slip; andcontrol the on-going and offgoing clutches through a closed loop control around the target slip if the determined slip is not above the target slip. 14. The vehicle of claim 13, wherein the control system is further configured to operate the electric machine using torque control according to a driver demand for torque. 15. The vehicle of claim 13, wherein the electric machine is shutdown when the engine start is requested, and the control system is further configured to operate the electric machine in speed control to control the speed of the electric machine within a calibratable level below a desired engine idle speed. 16. The vehicle of claim 13, further comprising a launch clutch, the control system being further configured to: request an engine start after an engine shutdown is initiated and the engine is still operating;initiate slip in the launch clutch; andraise the pressure of the first clutch to a third level to facilitate torque transfer from the electric machine to the engine when the slip in the launch clutch has reached a predetermined level. 17. The vehicle of claim 16, wherein the control system is further configured to: operate the electric machine using torque control according to driver demand;control the slip in the launch clutch around a target slip; andincrease torque output of the electric machine when a detectable drop in the launch clutch slip occurs.
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이 특허에 인용된 특허 (32)
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Nefcy, Bernard D.; Colvin, Daniel Scott; Kraska, Marvin Paul; Ortmann, Walter Joseph; Soo, Brian Thomas, Hybrid vehicle and control for a clutch engaging event.
Nedorezov, Felix; Jiang, Hong; Shelton, Matthew John; Nefcy, Bernard D.; Colvin, Daniel Scott; Dai, Zhengyu; Huffmaster, Roger Lyle, Method and apparatus for starting an engine of a modular hybrid transmission based upon demanded torque.
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