Methods and systems are provided for restarting an engine when a high pressure fuel pump is degraded. In response to an indication of high pressure fuel pump degradation, fuel may be injected during an intake stroke, rather than a compression stroke, for a selected number of combustion events since
Methods and systems are provided for restarting an engine when a high pressure fuel pump is degraded. In response to an indication of high pressure fuel pump degradation, fuel may be injected during an intake stroke, rather than a compression stroke, for a selected number of combustion events since the engine restart. By shifting to an intake stroke injection, the engine may be started even when sufficient fuel rail pressures are not available.
대표청구항▼
1. A method for an engine, comprising: during a first engine restart from idle-stop, when a high pressure fuel pump is not degraded, direct injecting fuel as multiple injections into a first cylinder during a compression stroke; andduring a second engine restart from idle-stop, when the high pressur
1. A method for an engine, comprising: during a first engine restart from idle-stop, when a high pressure fuel pump is not degraded, direct injecting fuel as multiple injections into a first cylinder during a compression stroke; andduring a second engine restart from idle-stop, when the high pressure fuel pump is degraded, direct injecting fuel as a single injection into the first cylinder during an intake stroke. 2. The method of claim 1, wherein during the first engine restart, the direct injecting includes direct injecting during the compression stroke for a first, larger number of combustion events since the restart, and during the second engine restart, the direct injecting includes direct injecting during the intake stroke for a second, smaller number of combustion events since the restart. 3. The method of claim 1, further comprising, during the first engine restart, retarding spark timing by a first, larger amount while direct injecting fuel, and during the second engine restart, retarding spark timing by a second, smaller amount while direct injecting fuel. 4. The method of claim 1, further comprising, during the first engine restart, applying a first, larger alternator load on the engine until a threshold engine speed is reached, and during the second engine restart, applying a second, smaller alternator load on the engine until the threshold engine speed is reached. 5. The method of claim 1, further comprising, during the first engine restart, maintaining an intake throttle open for a number of combustion events, and during the second engine restart, maintaining the intake throttle less open for the number of combustion events. 6. The method of claim 1, further comprising, disabling an automatic engine shut-down responsive to idle-stop conditions following the first engine restart. 7. The method of claim 1, further comprising, during a first engine shutdown preceding the first engine restart, shutting down the engine while maintaining one or more transmission clutches engaged; and during a second engine shutdown preceding the second engine restart, shutting down the engine while maintaining the one or more transmission clutches disengaged. 8. An engine system, comprising: an engine configured to be selectively deactivated responsive to idle-stop conditions;a fuel injector configured to directly inject fuel into an engine cylinder;a first high pressure fuel pump and a second low pressure fuel pump configured to deliver fuel from a fuel tank to the injector;a controller with computer readable instructions for: during an engine restart from idle-stop, in response to degradation of the first fuel pump, shifting direct fuel injection into a first firing engine cylinder from a compression stroke to an intake stroke for a number of combustion events since the restart and wherein the shifting includes shifting fuel injection from a multiple fuel injection in the compression stroke to a single fuel injection in the intake stroke. 9. The system of claim 8, wherein the first firing cylinder is a first cylinder to reach TDC upon engine restart. 10. The system of claim 8, further comprising an alternator, wherein the controller includes further instructions for applying a reduced alternator load on the engine during the restart until a threshold speed is reached.
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이 특허에 인용된 특허 (5)
Shibagaki,Nobuyuki, Control apparatus for internal combustion engine.
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