초록 ▼

A power management system for a combustion engine is disclosed. The power management system has a fuel injector, a sensor, and a controller in communication with the sensor and the fuel injector. The fuel injector is operable to inject multiple shots of fuel into the combustion engine during a sing

A power management system for a combustion engine is disclosed. The power management system has a fuel injector, a sensor, and a controller in communication with the sensor and the fuel injector. The fuel injector is operable to inject multiple shots of fuel into the combustion engine during a single injection event. The sensor is configured to sense a speed of the combustion engine and generate a signal indicative of the sensed speed. The controller is configured to limit the number of shots per injection event in response to the signal.

대표청구항 ▼

What is claimed is: 1. A power system, comprising: an engine block forming at least one combustion chamber; a crankshaft rotationally disposed within the engine block; an engine valve operatively connected to the crankshaft to cyclically open and close a fluid passageway; a variable valve actuation

What is claimed is: 1. A power system, comprising: an engine block forming at least one combustion chamber; a crankshaft rotationally disposed within the engine block; an engine valve operatively connected to the crankshaft to cyclically open and close a fluid passageway; a variable valve actuation device configured to selectively interrupt the cyclical opening and closing movement of the engine valve; a fuel injector operable to inject multiple shots of fuel into the at least one combustion chamber during a single injection event; a sensor configured to sense a rotational speed of the power system and generate a signal indicative of the sensed speed; and a controller in communication with the sensor, the fuel injector,and variable valve actuation device, the controller being configured to: limit the number of shots per injection event in response to the signal; and reduce power supplied to the variable valve actuation device in response to a power available to the controller, the fuel injector, and the variable valve actuation device falling below a predetermined value. 2. The power system of claim 1, wherein the number of shots per injection event is limited to one when the signal indicates a sensed speed of the power system in excess of a predetermined speed. 3. The power system of claim 2, wherein the predetermined speed is about 2100 rpm. 4. The power system of claim 2, wherein the predetermined speed is reduced in response to a level of power available to the controller, injector, and variable valve actuation device. 5. The power system of claim 1, wherein the power supplied to the variable valve actuation device is reduced at a rate based on the power available and the signal. 6. The power system of claim 5, wherein the reduction rate retains a combined power consumption of the controller, the injector, and the variable valve actuation device constant at an available power level as the speed of the power system varies. 7. A power management system for a combustion engine, comprising: a fuel injector operable to inject multiple shots of fuel into the combustion engine during a single injection event; a power source configured to provide power to the fuel injector and to a device other than the fuel injector; a controller in communication with the power source and the fuel injector, the controller being configured to reduce power to the device to provide power to the fuel injector; and a sensor configured to sense a speed of the combustion engine and generate a signal indicative of the sensed speed, wherein the controller is in communication with the sensor and is configured to limit the number of shots per injection event in response to the signal. 8. The power management system of claim 7, wherein the number of shots per injection event is limited to one when the signal indicates a sensed speed of the combustion engine in excess of a predetermined speed. 9. The power management system of claim 8, wherein the predetermined speed is about 2100 rpm. 10. The power management system of claim 8, wherein the predetermined speed is reduced in response to a level of power available to the controller and the fuel injector. 11. The power management system of claim 7, wherein the controller is further configured to reduce power supplied to the device in response to a power available to the controller, the fuel injector, and the device falling below a predetermined value. 12. The power management system of claim 11, wherein the device includes a variable valve actuation mechanism in communication with the controller. 13. The power management system of claim 12, wherein an amount of power reduction is limited to a minimum threshold value corresponding with an exhaust emission level. 14. The power management system of claim 12, wherein the controller is further configured to determine a ratio of injection shot limitation and variable valve actuation power reduction that results in a desired power consumption level and an acceptable exhaust emission level. 15. The power management system of claim 11, wherein the power supplied to the device is reduced at a rate based on the power available and the signal. 16. The power management system of claim 11, wherein the reduction rate retains a combined power consumption of the controller, the fuel injector, and the device substantially constant at an available power level as the speed of the combustion engine varies. 17. A method of managing power supplied to a fuel injector and a device other than the fuel injector, comprising: electronically controlling the fuel iniector to inject multiple shots of fuel into an engine during a single injection event; selectively diverting power from the device to the fuel injector to allow the fuel injector to inject the multiple shots of fuel into the engine during the single injection event; sensing a speed of the engine; and limiting the number of shots in response to the sensed speed. 18. The method of claim 17, wherein limiting includes limiting the number of shots per injection event to one, in response to the sensed speed exceeding a predetermined speed. 19. The method of claim 18, wherein the predetermined speed is about 2100 rpm. 20. The method of claim 18, further including reducing the predetermined speed in response to a level of power available to the fuel injector. 21. The method of 17, further including reducing the power supplied to the device in response to a sensed power available to the fuel injector. 22. The method of claim 21, wherein reducing includes reducing the power supplied to the device at a rate based on the sensed power available and the sensed speed of the engine.