Recursive firing pattern algorithm for variable cylinder deactivation in transient operation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02D-017/00
F02D-041/00
F02D-013/02
F02D-013/06
F02D-017/02
출원번호
US-0798737
(2013-03-13)
등록번호
US-9239024
(2016-01-19)
발명자
/ 주소
Beikmann, Randall S.
출원인 / 주소
GM Global Technology Operations LLC
인용정보
피인용 횟수 :
0인용 특허 :
27
초록▼
A cylinder control module generates a desired cylinder activation/deactivation sequence for a future period based on Q predetermined cylinder activation/deactivation sub-sequences used during a previous period, a desired number of cylinders to be activated during a predetermined period including the
A cylinder control module generates a desired cylinder activation/deactivation sequence for a future period based on Q predetermined cylinder activation/deactivation sub-sequences used during a previous period, a desired number of cylinders to be activated during a predetermined period including the previous and future periods, and an operating condition. Q is an integer greater than zero. The cylinder control module activates and deactivates opening of intake and exhaust valves of first and second ones of the cylinders that are to be activated and deactivated based on the desired cylinder activation/deactivation sequence, respectively. A fuel control module provides and disables fuel to the first and second ones of the cylinders, respectively.
대표청구항▼
1. A cylinder control system comprising: a cylinder control module that: generates a desired cylinder activation/deactivation sequence for cylinders of an engine and for a first predetermined number of crankshaft revolutions using N predetermined cylinder activation/deactivation sub-sequences, each
1. A cylinder control system comprising: a cylinder control module that: generates a desired cylinder activation/deactivation sequence for cylinders of an engine and for a first predetermined number of crankshaft revolutions using N predetermined cylinder activation/deactivation sub-sequences, each of the N predetermined cylinder activation/deactivation sub-sequences corresponding to a second predetermined number of crankshaft revolutions, wherein N is an integer greater than zero, and the second predetermined number is less than the first predetermined number;activates opening of intake and exhaust valves of first ones of the cylinders that are to be activated based on the desired cylinder activation/deactivation sequence; anddeactivates opening of intake and exhaust valves of second ones of the cylinders that are to be deactivated based on the desired cylinder activation/deactivation sequence; anda fuel control module that provides fuel to the first ones of the cylinders and that disables fueling to the second ones of the cylinders,wherein the cylinder control module further generates the desired cylinder activation/deactivation sequence for a future period based on a desired number of the cylinders to be activated during a predetermined period, P of the N predetermined cylinder activation/deactivation sub-sequences, and an operating condition, andwherein the future period follows the first predetermined number of crankshaft revolutions, the predetermined period includes the first predetermined number of crankshaft revolutions and the future period, and P is an integer between zero and N, inclusive. 2. The cylinder control system of claim 1 wherein the future period includes at least two future firing/non-firing events. 3. The cylinder control system of claim 1 wherein P is greater than one. 4. The cylinder control system of claim 1 wherein the cylinder control module generates the desired cylinder activation/deactivation sequence for the future period based on the desired number of the cylinders to be activated during the predetermined period, P of the N predetermined cylinder activation/deactivation sub-sequences, and an engine speed. 5. The cylinder control system of claim 1 wherein the cylinder control module generates the desired cylinder activation/deactivation sequence for the future period based on the desired number of the cylinders to be activated during the predetermined period, P of the N predetermined cylinder activation/deactivation sub-sequences, and an engine torque request. 6. The cylinder control system of claim 1 wherein the desired number of the cylinders to be activated during the predetermined period is an integer. 7. The cylinder control system of claim 1 wherein the cylinder control module generates the desired cylinder activation/deactivation sequence for the future period further based on predetermined percentages associated with predetermined cylinder activation/deactivation sub-sequences, respectively. 8. The cylinder control system of claim 1 wherein the cylinder control module generates the desired cylinder activation/deactivation sequence for the future period using predetermined cylinder activation/deactivation sub-sequences stored in memory. 9. The cylinder control system of claim 8 wherein the cylinder control module selects from the predetermined cylinder activation/deactivation sub-sequences based on the desired number of the cylinders to be activated during the predetermined period, the P of the N predetermined cylinder activation/deactivation sub-sequences, and the operating condition. 10. The cylinder control system of claim 1 wherein the cylinder control module generates the desired cylinder activation/deactivation sequence for the future period based on noise and vibration. 11. A cylinder control system comprising: a cylinder control module that: generates a desired cylinder activation/deactivation sequence for a future period based on Q predetermined cylinder activation/deactivation sub-sequences used during a previous period, a desired number of cylinders to be activated during a predetermined period including the previous and future periods, and an operating condition,wherein Q is an integer greater than zero;activates opening of intake and exhaust valves of first ones of the cylinders that are to be activated based on the desired cylinder activation/deactivation sequence; anddeactivates opening of intake and exhaust valves of second ones of the cylinders that are to be deactivated based on the desired cylinder activation/deactivation sequence; anda fuel control module that provides fuel to the first ones of the cylinders and that disables fueling to the second ones of the cylinders. 12. A cylinder control method comprising: generating a desired cylinder activation/deactivation sequence for cylinders of an engine and for a first predetermined number of crankshaft revolutions using N predetermined cylinder activation/deactivation sub-sequences, each of the N predetermined cylinder activation/deactivation sub-sequences corresponding to a second predetermined number of crankshaft revolutions, wherein N is an integer greater than zero, and the second predetermined number is less than the first predetermined number;activating opening of intake and exhaust valves of first ones of the cylinders that are to be activated based on the desired cylinder activation/deactivation sequence;deactivating opening of intake and exhaust valves of second ones of the cylinders that are to be deactivated based on the desired cylinder activation/deactivation sequence;providing fuel to the first ones of the cylinders;disabling fueling to the second ones of the cylinders; andgenerating the desired cylinder activation/deactivation sequence for a future period based on a desired number of the cylinders to be activated during a predetermined period, P of the N predetermined cylinder activation/deactivation sub-sequences, and an operating condition,wherein the future period follows the first predetermined number of crankshaft revolutions, the predetermined period includes the first predetermined number of crankshaft revolutions and the future period, and P is an integer between zero and N, inclusive. 13. The cylinder control method of claim 12 wherein the future period includes at least two future firing/non-firing events. 14. The cylinder control method of claim 12 further comprising generating the desired cylinder activation/deactivation sequence for the future period based on the desired number of the cylinders to be activated during the predetermined period, P of the N predetermined cylinder activation/deactivation sub-sequences, and an engine speed. 15. The cylinder control method of claim 12 further comprising generating the desired cylinder activation/deactivation sequence for the future period based on the desired number of the cylinders to be activated during the predetermined period, P of the N predetermined cylinder activation/deactivation sub-sequences, and an engine torque request. 16. The cylinder control method of claim 12 wherein the desired number of the cylinders to be activated during the predetermined period is an integer. 17. The cylinder control method of claim 12 further comprising generating the desired cylinder activation/deactivation sequence for the future period further based on predetermined percentages associated with predetermined cylinder activation/deactivation sub-sequences, respectively. 18. The cylinder control method of claim 12 further comprising generating the desired cylinder activation/deactivation sequence for the future period using predetermined cylinder activation/deactivation sub-sequences stored in memory. 19. The cylinder control method of claim 18 further comprising selecting from the predetermined cylinder activation/deactivation sub-sequences based on the desired number of the cylinders to be activated during the predetermined period, the P of the N predetermined cylinder activation/deactivation sub-sequences, and the operating condition. 20. The cylinder control method of claim 12 further comprising generating the desired cylinder activation/deactivation sequence for the future period based on noise and vibration.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (27)
Morris Robert Leonard (Livonia MI), Active driveline damping.
Dudek Kenneth P. (Rochester Hills MI) Matthews Gregory P. (Bloomfield Hill MI) Folkerts Charles H. (Troy MI) Davis Ronald A. (Commerce Township ; Oakland County MI), Air dynamics state characterization.
Hayes Paul A. (Columbus IN) Reinhart Thomas E. (Columbus IN) Shaw Terrence M. (Columbus IN), Device and method for altering the acoustic signature of an internal combustion engine.
Clinton Eric L. (Southfield MI) Kochen Scott C. (Northville MI) Hardy Larry A. (Riverview MI), Fuel control method and system for engine with variable cam timing.
Dudek Kenneth P. (Rochester Hills MI) Matthews Gregory P. (Bloomfield Hills MI) Folkerts Charles H. (Troy MI) Davis Ronald A. (Commerce Township MI), Internal combustion engine control.
Frster Hans-Joachim (Stuttgart DEX) Lbbing Bernd-Eric (Winterbach DEX) Letsche Ulrich (Stuttgart DEX), Process and apparatus for intermittent control of a cyclically operating internal combustion engine.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.