초록 ▼

Control method for variable geometry turbocharger and related system are disclosed, wherein a boost target for a turbocharger is determined. Next, an error value between target boost and actual boost pressure is calculated and utilized to determine a new vane position. For example, the new vane posi

Control method for variable geometry turbocharger and related system are disclosed, wherein a boost target for a turbocharger is determined. Next, an error value between target boost and actual boost pressure is calculated and utilized to determine a new vane position. For example, the new vane position can be determined by calculating a needed change in vane position from the equation, Δθ=kp(err)+kd·d(err)/dt, where Δθis the change in vane position, kpis a proportional gain value, kdis a differential gain value, and err is the error value between the boost target and the actual boost. A new vane position for the turbocharger is then determined by summing Δθwith the previous vane position, and the turbocharger's set of vanes is positioned according to the new vane position. An open loop diagnostic mechanism and a feed-forward mechanism can also be employed to enhance vane positioning.

대표청구항 ▼

1. A method for positioning a set of vanes of a variable geometry turbocharger, said method comprising steps of: determining a boost target for said turbocharger; calculating an error value between said boost target and an actual boost; determining a change in vane position, Δθ,wherein said Δθi

1. A method for positioning a set of vanes of a variable geometry turbocharger, said method comprising steps of: determining a boost target for said turbocharger; calculating an error value between said boost target and an actual boost; determining a change in vane position, Δθ,wherein said Δθis substantially equal to kp(err)+kd·d(err)/dt; determining a new vane position for said turbocharger based on said change in vane position; positioning said set of vanes of said turbocharger according to said new vane position. 2. The method of claim 1 further comprising a step of correcting said boost target based on an ambient pressure so as to prevent overspeeding said turbocharger. 3. The method of claim 1 further comprising a step of measuring an engine parameter prior to said step of determining said boost target, wherein said boost target is determined from a boost target map based on said engine parameter. 4. The method of claim 1 further comprising a step of converting said new vane position into an analog signal after said step of determining said new vane position and prior to said step of positioning said set of vanes. 5. The method of claim 4 further comprising a step of utilizing said analog signal to position an actuator. 6. A method for positioning a set of vanes of a variable geometry turbocharger, said method comprising steps of: determining a new vane position for said turbocharger; modifying said new vane position with a feed forward value, FF, wherein said FF is substantially equal to (|dTP/dt|-Y)*Ka; positioning said set of vanes of said turbocharger according to said new vane position. 7. A system for positioning a set of vanes of a variable geometry turbocharger, said system comprising: a boost target map for determining a boost target for said turbocharger; an ECU configured to calculate an error value between said boost target and an actual boost and to determine a new vane position for said turbocharger based on a change in vane position a PID module configured to determine said change in vane position, Δθ,wherein said Δθis substantially equal to kp(err)+kd·d(err)/dt; an actuator configured to position said set of vanes of said turbocharger according to said new vane position. 8. The system of claim 7 further comprising a boost target correcting module configured to correct said boost target based on an ambient pressure so as to prevent overspeeding said turbocharger. 9. The system of claim 7 further comprising: a boost target map; a sensor configured to measure an engine parameter, wherein said boost target is determined from said boost target map based on said engine parameter. 10. The system of claim 7 further comprising a D/A converter configured to convert said new vane position into an analog signal. 11. The system of claim 10 wherein said analog signal is utilized to position said actuator. 12. A system for positioning a set of vanes of a variable geometry turbocharger, said system comprising: an ECU configured to determine a new vane position for said turbocharger; a feed forward module configured to modify said new vane position with a feed forward value, FF, wherein said FF is substantially equal to (|dTP/dt|-Y)*Ka; positioning said set of vanes of said turbocharger according to said new vane position.