Methods and systems are provided for improving a margin to surge. A compressor recirculation valve is held at a semi-open position during steady-state boosted engine operation and operation in a soft surge region. The valve is fully opened to reduce hard surge, or fully closed to meet a transient in
Methods and systems are provided for improving a margin to surge. A compressor recirculation valve is held at a semi-open position during steady-state boosted engine operation and operation in a soft surge region. The valve is fully opened to reduce hard surge, or fully closed to meet a transient increase in boost demand.
대표청구항▼
1. A boosted engine method, comprising: if a compressor surge limit margin exceeds a threshold, boosting the engine and maintaining a valve coupling a compressor inlet to a compressor outlet at a semi-open, default position;if the margin is below the threshold, shifting the valve from the semi-open
1. A boosted engine method, comprising: if a compressor surge limit margin exceeds a threshold, boosting the engine and maintaining a valve coupling a compressor inlet to a compressor outlet at a semi-open, default position;if the margin is below the threshold, shifting the valve from the semi-open position to a fully-open position;responsive to a transient torque demand increase by a vehicle operator, shifting the valve from the semi-open position to a fully-closed position. 2. The method of claim 1, wherein the default, semi-open position of the valve is a position that provides a nominal flow rate across the compressor, the nominal flow rate based on a surge-mitigating compressor flow rate. 3. The method of claim 1, wherein the valve includes a first spring and a second spring, the valve coupled to an external actuator, the first spring pre-compressed with a first load and the second spring pre-compressed with a second load, the valve maintained in the semi-open position via compressive forces of the pre-compressed first and second springs, without external actuator actuation. 4. The method of claim 3, wherein shifting the valve from the semi-open position to the fully-open position includes using external actuator actuation to energize the valve in an opening direction to increase compression of the first spring while maintaining compression of the second spring, and wherein shifting the valve from the semi-open position to the fully-closed position includes using the external actuator actuation to energize the valve in a closing direction to increase compression of the second spring while maintaining compression of the first spring. 5. The method of claim 4, wherein the external actuator is a solenoid, and wherein the external actuator actuation includes electrically energizing the solenoid. 6. The method of claim 4, wherein the external actuator is a pneumatically-controlled device including a diaphragm or a piston, and wherein the external actuator actuation includes pneumatically energizing the diaphragm or piston. 7. The method of claim 4, wherein the first spring is an inner spring and the second spring is an outer spring or the first spring is an outer spring and the second spring is an inner spring. 8. The method of claim 4, wherein the first spring is a lower spring and wherein the second spring is an upper spring. 9. A method for a boosted engine comprising: during steady-state boosted engine operating conditions, holding a valve coupled in a recirculation path across a compressor at a semi-open position, the valve is coupled to a pair of opposing springs including a first, inner spring and a second, outer spring, and wherein holding the valve at the semi-open position includes passively holding the valve at the semi-open position via a first pre-compression of the first spring and a second, pre-compression of the second spring, without actuation of an external actuator coupled to the valve;in response to a tip-in, electrically controlling the external actuator to move the valve to a fully-closed position; andin response to a tip-out, electrically controlling the external actuator to move the valve to a fully-open position, wherein the engine is coupled to an on-road vehicle with wheels which contact a road surface, and wherein the tip-in is an operator pedal tip-in, and wherein the tip-out is an operator pedal tip-out and the steady-state boosted engine operating conditions include conditions where a compressor surge limit margin is below a threshold. 10. The method of claim 9, wherein electrically controlling the external actuator to move the valve to a fully-closed position includes actuating the external actuator in a first direction to increase compression of the first, inner spring while maintaining the pre-compression of the second, outer spring to move the valve to the fully-closed position, and wherein electrically controlling the external actuator to move the valve to a fully-open position includes actuating the external actuator in a second direction, opposite the first direction, to increase compression of the second, outer spring while maintaining the pre-compression of the first, inner spring to move the valve to the fully-open position. 11. The method of claim 10, wherein the external actuator is an electric solenoid, and wherein actuating the external actuator includes electrically energizing the solenoid, orwherein the external actuator is a piston or a diaphragm, and wherein actuating the external actuator includes pneumatically energizing the actuator. 12. A vehicle system, comprising: an engine;drive wheels coupling the vehicle to a road;a pedal for receiving an operator torque demand;a compressor for providing a boosted aircharge to the engine;a recirculation passage including a valve coupling an outlet of the compressor to an inlet of the compressor, the valve including a first, inner spring pre-compressed with a first load, and a second, outer spring pre-compressed with a second load, the valve coupled to an external actuator; anda controller with computer-readable instructions for: while a margin to a surge limit is higher than a threshold, operating the compressor with the valve maintained at a semi-open position without actuation of the external actuator; andin response to the margin being smaller than the threshold, reducing boost pressure by energizing the external actuator to shift the valve to a fully-open position. 13. The system of claim 12, wherein the controller includes further instructions for: in response to a pedal tip-in, increasing boost pressure by energizing the external actuator to shift the valve to a fully-closed position. 14. The system of claim 13, wherein the external actuator is a push/pull electric solenoid, and wherein energizing the external actuator includes electrically energizing the solenoid in a first direction to increase the first load on the first spring while maintaining the second load on the second spring to shift the valve to the fully-closed position and electrically energizing the solenoid in a second direction opposite the first direction to increase the second load on the second spring while maintaining the first load on the first spring to shift the valve to the fully-open position.
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