A first recirculation system includes a first adjuster to adjust the exhaust-gas flow rate in a first path connecting an upstream position of a turbine of a VG turbocharger to a downstream position of a compressor. A second recirculation system includes a second adjuster to adjust the exhaust-gas fl
A first recirculation system includes a first adjuster to adjust the exhaust-gas flow rate in a first path connecting an upstream position of a turbine of a VG turbocharger to a downstream position of a compressor. A second recirculation system includes a second adjuster to adjust the exhaust-gas flow rate in a second path connecting a downstream position of the turbine to an upstream position of the compressor. A recirculation controller switches between a single use activating the first or second recirculation system and a combination use activating both systems by controlling the adjusters. A pressure controller executes feedback control of an intake-system pressure through adjusting the opening of vanes, and executes feedforward control without the feedback control during a predetermined period from the switching from the single use to the combination use.
대표청구항▼
1. A controlling apparatus for an engine, comprising: a variable geometry turbocharger including a turbine disposed in an exhaust path, a compressor disposed in an intake path, and vanes for adjusting a flow rate;a first recirculation system including a first adjusting valve that adjusts a flow rate
1. A controlling apparatus for an engine, comprising: a variable geometry turbocharger including a turbine disposed in an exhaust path, a compressor disposed in an intake path, and vanes for adjusting a flow rate;a first recirculation system including a first adjusting valve that adjusts a flow rate of exhaust gas in a first path, the first path connecting an upstream position of the turbine to a downstream position of the compressor;a second recirculation system including a second adjusting valve that adjusts a flow rate of exhaust gas in a second path, the second path connecting a downstream position of the turbine to an upstream position of the compressor;a processor and a memory device storing instructions that causes the processor to:switch, as a recirculation controller, between a single use and a combination use by controlling the first adjusting valve and the second adjusting valve in response to an operating state of a vehicle, the single use activating one of the first recirculation system and the second recirculation system, the combination use activating both the first recirculation system and the second recirculation system; andexecute, as a pressure controller, a feedback control of an intake-system pressure in the downstream position of the compressor through adjustment of an opening of the vanes in response to the operating state, whereinthe pressure controller prohibits the feedback control and executes a feedforward control of the intake-system pressure every time switching from the single use to the combination use by the recirculation controller occurs, and continues the feedforward control for a predetermined period from the switching. 2. The controlling apparatus according to claim 1, wherein the recirculation controller executes a feedforward control on the first adjusting valve in a high-pressure single use and the combination use, the high-pressure single use activating the first recirculation system alone. 3. The controlling apparatus according to claim 1, wherein the pressure controller adjusts the opening of the vanes to a target vane opening corresponding to a target pressure of the intake-system pressure in the feedforward control, the target vane opening corresponding to the target pressure of the intake-system pressure being preliminarily determined in response to the operating state. 4. The controlling apparatus according to claim 3, wherein the recirculation controller executes a feedforward control on the first adjusting valve in a high-pressure single use and the combination use, the high-pressure single use activating the first recirculation system alone. 5. The controlling apparatus according to claim 1, wherein if a variation in load on the engine upon the switching from the single use to the combination use by the recirculation controller is equal to or larger than a predetermined load, the pressure controller prohibits the feedback control and executes the feedforward control of the intake-system pressure. 6. The controlling apparatus according to claim 5, wherein the recirculation controller executes a feedforward control on the first adjusting valve in a high-pressure single use and the combination use, the high-pressure single use activating the first recirculation system alone. 7. The controlling apparatus according to claim 5, wherein the pressure controller adjusts the opening of the vanes to a target vane opening corresponding to a target pressure of the intake-system pressure in the feedforward control, the target vane opening corresponding to the target pressure of the intake-system pressure being preliminarily determined in response to the operating state. 8. The controlling apparatus according to claim 7, wherein the recirculation controller executes a feedforward control on the first adjusting valve in a high-pressure single use and the combination use, the high-pressure single use activating the first recirculation system alone. 9. The controlling apparatus according to claim 1, further comprising: a pressure sensor to detect the intake-system pressure, whereinthe memory device further stores instructions that cause the processor to:calculate, as a calculator, a target pressure of the intake-system pressure in response to the operating state, whereinif an absolute value of a difference between the intake-system pressure detected with the pressure sensor and the target pressure calculated by the calculator becomes equal to or smaller than a predetermined value, the pressure controller restarts the feedback control. 10. The controlling apparatus according to claim 9, wherein the recirculation controller executes a feedforward control on the first adjusting valve in a high-pressure single use and the combination use, the high-pressure single use activating the first recirculation system alone. 11. The controlling apparatus according to claim 9, wherein the pressure controller adjusts the opening of the vanes to a target vane opening corresponding to the target pressure of the intake-system pressure in the feedforward control, the target vane opening corresponding to the target pressure of the intake-system pressure being preliminarily determined in response to the operating state. 12. The controlling apparatus according to claim 11, wherein the recirculation controller executes a feedforward control on the first adjusting valve in a high-pressure single use and the combination use, the high-pressure single use activating the first recirculation system alone. 13. The controlling apparatus according to claim 9, wherein if a variation in load on the engine upon the switching from the single use to the combination use by the recirculation controller is equal to or larger than a predetermined load, the pressure controller prohibits the feedback control and executes the feedforward control of the intake-system pressure. 14. The controlling apparatus according to claim 13, wherein the recirculation controller executes a feedforward control on the first adjusting valve in a high-pressure single use and the combination use, the high-pressure single use activating the first recirculation system alone. 15. The controlling apparatus according to claim 13, wherein the pressure controller adjusts the opening of the vanes to a target vane opening corresponding to the target pressure of the intake-system pressure in the feedforward control, the target vane opening corresponding to the target pressure of the intake-system pressure being preliminarily determined in response to the operating state. 16. The controlling apparatus according to claim 15, wherein the recirculation controller executes a feedforward control on the first adjusting valve in a high-pressure single use and the combination use, the high-pressure single use activating the first recirculation system alone. 17. A controlling apparatus for an engine, comprising: a variable geometry turbocharger including a turbine disposed in an exhaust path, a compressor disposed in an intake path, and vanes for adjusting a flow rate;a first recirculation system including a first adjusting valve that adjusts a flow rate of exhaust gas in a first path, the first path connecting an upstream position of the turbine to a downstream position of the compressor;a second recirculation system including a second adjusting valve that adjusts a flow rate of exhaust gas in a second path, the second path connecting a downstream position of the turbine to an upstream position of the compressor;a processor and a memory device storing instructions that causes the processor to:switch, as a recirculation controller, between a single use and a combination use by controlling the first adjusting valve and the second adjusting valve in response to an operating state of a vehicle, the single use activating one of the first recirculation system and the second recirculation system, the combination use activating both the first recirculation system and the second recirculation system; andexecute, as a pressure controller, a feedback control of an intake-system pressure in the downstream position of the compressor through adjustment of an opening of the vanes in response to the operating state, whereinthe pressure controller prohibits the feedback control and executes a feedforward control of the intake-system pressure during a predetermined period from switching from the single use to the combination use by the recirculation controller, andthe recirculation controller executes a feedforward control on the first adjusting valve in a high-pressure single use and the combination use, the high-pressure single use activating the first recirculation system alone.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (3)
Shutty, John; Joergl, Volker; Mueller, Volker; Roth, David B., Controlling exhaust gas recirculation in a turbocharged engine system.
Barnes Travis E. ; Coleman Gerald N. ; Lukich Michael S. ; Nicholson Scott E. ; Young Paul M., Device for controlling a variable geometry turbocharger.
Yoshida Junichiro,JPX ; Sakamoto Hiroki,JPX, Turbocharger control system for turbocharged internal combustion engines equipped with exhaust-gas recirculation control system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.