초록 ▼

A method for controlling an engine having a variable valve actuator includes operating the engine in a first mode where the engine carries out spark ignition combustion of air and fuel; and changing operation to a second mode where the engine carries out homogenous charge compression ignition combus

A method for controlling an engine having a variable valve actuator includes operating the engine in a first mode where the engine carries out spark ignition combustion of air and fuel; and changing operation to a second mode where the engine carries out homogenous charge compression ignition combustion of air and fuel. The variable valve actuator unit is adjusted in response to said change to provide a shorter valve opening or lift.

대표청구항 ▼

The invention claimed is: 1. A method for controlling an engine having a variable valve actuator, the method comprising: operating the engine in a first mode where the engine carries out spark ignition combustion of air and fuel; and operating the engine in a second mode where the engine carries ou

The invention claimed is: 1. A method for controlling an engine having a variable valve actuator, the method comprising: operating the engine in a first mode where the engine carries out spark ignition combustion of air and fuel; and operating the engine in a second mode where the engine carries out homogenous charge compression ignition combustion of air and fuel, where during said second mode, at least a first and second fuel injection are performed, where an amount of at least said first fuel injection is adjusted based on an indication of at least one of engine knock and combustion stability. 2. The method of claim 1 wherein said first fuel injection is performed via direct fuel injection into a cylinder of the engine before top dead center of negative valve overlap, and said second injection, which is larger than said first injection, is performed after top dead center of negative valve overlap. 3. A computer readable storage device having stored therein data representing instructions executable by a computer to implement a compression ignition for an internal combustion engine, the engine having a piston disposed in a cylinder to define a combustion chamber, intake valves for admitting fresh air into the cylinder, a fuel injector for injecting fuel into the combustion chamber, and exhaust valves for discharging exhaust gas resulting from combustion within the cylinder, the computer readable storage device comprising: instructions for adjusting opening and closing timings of the intake valves and opening and closing timings of the exhaust valves such that the piston reciprocates within the cylinder to perform an exhaust phase, an exhaust gas retaining phase, an intake phase, a compression phase, and an expansion phase; instructions for generating a first and second fuel injection by the fuel injector, the first injection starting during said exhaust gas retaining phase and the second injection starting after top dead center of a piston stroke and before top dead center of a subsequent piston compression stroke; and instructions for adjusting a timing of each of the first and the second injection based on information indicative of engine knock and combustion stability. 4. The computer readable storage device of claim 3 where information is based on an engine knocking sensor. 5. The computer readable storage device of claim 4 where the knocking sensor includes a piezo-electric sensor. 6. The computer readable storage device of claim 3 where the information is based on a combustion stability sensor. 7. The computer readable storage device of claim 6 where the combustion stability sensor includes an acceleration sensor. 8. The computer readable storage device of claim 7 where the combustion stability sensor includes a flywheel sensor. 9. The computer readable storage device of claim 6 where the combustion stability sensor includes an ion current sensor. 10. The computer readable storage device of claim 3 where the information is based on an in-cylinder piezoelectric pressure sensor. 11. The computer readable storage device of claim 3, further comprising instructions for adjusting a distribution of injected fuel between the first and the second injection based on an indication of engine knock and combustion stability, where if the knock indication and the combustion stability are below predetermined limit values, the first injection is reduced, and if the knock indication and the combustion stability are above the predetermined limit values, the first injection is increased. 12. The computer readable storage device of claim 3, further comprising instructions for adjusting a distribution of injected fuel between the first and the second injection based on an indication of engine knock and combustion stability, where if the knock indication is above a corresponding predetermined limit value and combustion stability is below a corresponding predetermined limit value, the first injection is reduced, and if the knock indication is below its predetermined limit value and the combustion stability is above its predetermined limit value, the first injection is increased. 13. A computer readable storage device having stored therein data representing instructions executable by a computer to implement a compression ignition for an internal combustion engine, the engine having a piston disposed in a cylinder to define a combustion chamber, intake valves for admitting fresh air into the cylinder, a fuel injector for injecting fuel into the combustion chamber, and exhaust valves for discharging exhaust gas resulting from combustion within the cylinder, the computer readable storage device comprising: instructions for adjusting opening and closing timings of the intake valves and opening and closing timings of the exhaust valves such that a piston reciprocates within the cylinder to perform an exhaust phase, an exhaust gas retaining phase, an intake phase, a compression phase, and an expansion phase; instructions for generating a first and second fuel injection by the fuel injector, the first injection starting during said exhaust gas retaining phase and the second injection starting after top dead center of the piston stroke and before top dead center of a subsequent piston compression stroke; and instructions for adjusting a timing of each of the first and the second injection based on feedback from an engine knock sensor, the first injection increased under a first engine knock signal, and decreased under a second engine knock signal. 14. The computer readable storage device of claim 13, further comprising instructions for adjusting a distribution of injected fuel between the first and the second injection based on the engine knock sensor, where if a knock indication is below a predetermined limit value, the first injection is reduced, and if the knock indication is above the predetermined limit value, the first injection is increased.