IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0760942
(2007-06-11)
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등록번호 |
US-8606474
(2013-12-10)
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발명자
/ 주소 |
- Guo, Linsong
- Frazier, Tim R.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
24 |
초록
▼
A method and system for controlling a continuously variable transmission (CVT). In one embodiment, the method includes receiving vehicle operation data. The method also includes controlling engine and transmission operations based on the vehicle operation data, fuel efficiency data, and CVT efficien
A method and system for controlling a continuously variable transmission (CVT). In one embodiment, the method includes receiving vehicle operation data. The method also includes controlling engine and transmission operations based on the vehicle operation data, fuel efficiency data, and CVT efficiency data.
대표청구항
▼
1. A method for controlling a continuously variable transmission (CVT), the method comprising: receiving vehicle operation data; andcontrolling engine and transmission operations based on the vehicle operation data, fuel efficiency data, and CVT efficiency data, wherein said receiving vehicle operat
1. A method for controlling a continuously variable transmission (CVT), the method comprising: receiving vehicle operation data; andcontrolling engine and transmission operations based on the vehicle operation data, fuel efficiency data, and CVT efficiency data, wherein said receiving vehicle operation data and said controlling engine and transmission operations are performed by at least one processor, and said controlling engine and transmission operations include the processes of:determining an optimal engine speed based on the vehicle operation data and the fuel efficiency data;determining a fixed-speed mode speed based on the fuel efficiency data;if the optimal engine speed is equal to or greater than the fixed-speed mode speed: determining an overall CVT ratio that is based on the fixed-speed mode speed, a vehicle speed, and the CVT efficiency data; andcontrolling the transmission operations in a fixed-speed mode such that engine speed is maintained at the fixed-speed mode speed, engine torque is a function of vehicle operation conditions, and the determined overall CVT ratio based on the fixed-speed mode speed; andif the optimal engine speed is less than the fixed-speed mode speed: determining an overall CVT ratio that is based on the optimal engine speed, the vehicle speed, and the CVT efficiency data, andcontrolling the transmission operations in an optimal-operation mode such that engine torque is a function of a varying engine speed and the determined overall CVT ratio based on the optimal engine speed. 2. The method of claim 1 wherein the vehicle operation data comprises a vehicle speed and a required engine power. 3. The method of claim 1 wherein the fuel efficiency data is based on a relationship between engine speed and engine torque that achieves optimal fuel efficiency. 4. The method of claim 1 wherein the CVT efficiency data is based on a relationship between engine speed and engine torque that achieves an optimal CVT ratio. 5. The method of claim 1 further comprising: selecting the highest possible gear number based on the overall CVT ratio, automated manual transmission (AMT) gear ratio, and front box ratio. 6. The method of claim 1 further comprising modifying the fuel efficiency data and the CVT efficiency data based on emissions data. 7. A non-transitory computer-readable medium containing program instructions for controlling a continuously variable transmission (CVT), the program instructions which when executed by a computer system cause the computer system to execute a method comprising: receiving vehicle operation data;controlling engine and transmission operations based on the vehicle operation data, fuel efficiency data, and CVT efficiency data;determining an optimal engine speed based on the vehicle operation data and the fuel efficiency data;determining a fixed-speed mode speed based on the fuel efficiency data;if the optimal engine speed is equal to or greater than the fixed-speed mode speed: determining an overall CVT ratio that is based on the fixed-speed mode speed, a vehicle speed, and the CVT efficiency data; andcontrolling the transmission operations in a fixed-speed mode such that the engine speed is maintained at the fixed-speed mode speed, engine torque is a function of vehicle operation conditions, and the determined overall CVT ratio based on the fixed-speed mode speed; andif the optimal engine speed is less than the fixed-speed mode speed: determining an overall CVT ratio that is based on the optimal engine speed, the vehicle speed, and the CVT efficiency data, andcontrolling the transmission operations in an optimal-operation mode such that engine torque is a function of a varying engine speed and the determined overall CVT ratio based on the optimal engine speed. 8. The computer-readable medium of claim 7 wherein the vehicle operation data comprise a vehicle speed and a required engine power. 9. The computer-readable medium of claim 7 wherein the fuel efficiency data is based on a relationship between engine speed and engine torque that achieves optimal fuel efficiency. 10. The computer-readable medium of claim 7 wherein the CVT efficiency data is based on a relationship between engine speed and engine torque that achieves an optimal CVT ratio. 11. The computer-readable medium of claim 7 further comprising program instructions for: selecting the highest possible gear number based on the overall CVT ratio, automated manual transmission (AMT) gear ratio, and front box ratio. 12. The computer-readable medium of claim 7 further comprising program instructions for modifying the fuel efficiency data and the CVT efficiency data based on emissions data. 13. A continuously variable transmission (CVT) system comprising: a CVT controller operative to receive vehicle operation data;an electronic control module (ECM) operatively coupled to the CVT controller and operative to receive the vehicle operation data;a CVT front box operatively coupled to the CVT controller and the ECM; and an automated manual transmission (AMT) operatively coupled to the CVT controller and the ECM, wherein the CVT controller and the ECM are operative to control transmission operations of the CVT front box and the AMT based on the vehicle operation data, fuel efficiency data, and CVT efficiency data, wherein the ECM is operable to:determine an optimal engine speed based on the vehicle operation data and the fuel efficiency data;determine a fixed-speed mode speed based on the fuel efficiency data;if the optimal engine speed is equal to or greater than the fixed-speed mode speed: determine an overall CVT ratio that is based on the fixed-speed mode speed, a vehicle speed, and the CVT efficiency data; andcontrol the transmission operations in a fixed-speed mode such that engine speed is maintained at the fixed-speed mode speed, engine torque is a function of vehicle operation conditions, and the determined overall CVT ratio is based on the fixed-speed mode speed; andif the optimal engine speed is less than the fixed-speed mode speed: determine an overall CVT ratio that is based on the optimal engine speed, the vehicle speed, and the CVT efficiency data, andcontrol the transmission operations in an optimal-operation mode such that engine torque is a function of a varying engine speed and the determined overall CVT ratio based on the optimal engine speed. 14. The system of claim 13 wherein the vehicle operation data comprise a vehicle speed and a required engine power. 15. The system of claim 13 wherein the fuel efficiency data is based on a relationship between engine speed and engine torque that achieves optimal fuel efficiency. 16. The system of claim 13 wherein the CVT efficiency data is based on a relationship between engine speed and engine torque that achieves an optimal CVT ratio. 17. The system of claim 13, wherein the CVT controller is operable to: select the highest possible gear number based on the overall CVT ratio, AMT gear ratio, and front box ratio. 18. A vehicle comprising: an engine; anda continuously variable transmission (CVT) system coupled to the engine, the CVT system comprising:a CVT controller operative to receive vehicle operation data;an electronic control module (ECM) operatively coupled to the CVT controller and operative to receive the vehicle operation data;a CVT front box operatively coupled to the CVT controller and the ECM; andan automated manual transmission (AMT) operatively coupled to the CVT controller and the ECM, wherein the CVT controller and the ECM are operative to control transmission operations of the CVT front box and the AMT based on the vehicle operation data, fuel efficiency data, and CVT efficiency data, wherein the ECM is operable to:determine an optimal engine speed based on the vehicle operation data and the fuel efficiency data;determine a fixed-speed mode speed based on the fuel efficiency data;if the optimal engine speed is equal to or greater than the fixed-speed mode speed: determine an overall CVT ratio that is based on the fixed-speed mode speed, a vehicle speed, and the CVT efficiency data; andcontrol the transmission operations in a fixed-speed mode such that engine speed is maintained at the fixed-speed mode speed, engine torque is a function of vehicle operation conditions, and the determined overall CVT ratio is based on the fixed-speed mode speed; andif the optimal engine speed is less than the fixed-speed mode speed: determine an overall CVT ratio that is based on the optimal engine speed, the vehicle speed, and the CVT efficiency data, andcontrol the transmission operations in an optimal-operation mode such that engine torque is a function of a varying engine speed and the determined overall CVT ratio based on the optimal engine speed.
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