IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0364067
(2006-03-01)
|
등록번호 |
US-7827790
(2010-11-25)
|
우선권정보 |
JP-2005-057568(2005-03-02); JP-2005-057569(2005-03-02); JP-2005-057570(2005-03-02) |
발명자
/ 주소 |
- Kimoto, Kayoko
- Isobe, Daiji
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
16 |
초록
▼
A torque base control unit calculates target torque based on an accelerator position and engine speed. The control unit further executes calculation of target airflow rate, calculation of target intake pressure, and calculation of target boost pressure based on the target torque. Target throttle pos
A torque base control unit calculates target torque based on an accelerator position and engine speed. The control unit further executes calculation of target airflow rate, calculation of target intake pressure, and calculation of target boost pressure based on the target torque. Target throttle position is calculated based on the target airflow rate, target intake pressure, target boost pressure, actual boost pressure, and throttle passed intake temperature. An assist control unit calculates target turbine power based on the target airflow rate and the target boost pressure calculated by the torque base control unit and calculates actual turbine power based on exhaust information. Assist power of a motor attached to a turbocharger is calculated based on the power difference between the target turbine power and the actual turbine power.
대표청구항
▼
What is claimed is: 1. A controller for an internal combustion engine with a supercharger having a turbine wheel and a compressor impeller, the controller being applied to an internal combustion engine including a supercharger for supercharging intake air by exhaust power and a power assist device
What is claimed is: 1. A controller for an internal combustion engine with a supercharger having a turbine wheel and a compressor impeller, the controller being applied to an internal combustion engine including a supercharger for supercharging intake air by exhaust power and a power assist device attached to the supercharger and directly assisting power of the supercharger, the controller controlling output torque of the internal combustion engine by adjusting an amount of air taken into the internal combustion engine by an airflow rate adjusting means, said controller comprising: target airflow rate calculating means that calculates a target airflow rate based on a target torque corresponding to a request of a driver; actual airflow rate calculating means that calculates an actual airflow rate actually flowing in an intake air path by estimation or measurement at a time of performing the airflow rate control by the airflow rate adjusting means; target pressure calculating means that calculates target boost pressure based on the target torque; target power calculating means that calculates target turbine power of the turbine wheel based on an airflow rate information representing at least target airflow rate and target boost pressure; actual power calculating means that calculates actual turbine power of the turbine wheel based on exhaust parameters representing at least exhaust flow rate, turbine upstream pressure, turbine downstream pressure, and turbine upstream temperature; assist amount calculating means that calculates an assist amount of the power assist device based on a power difference between the target turbine power and actual turbine power of the turbine wheel, the assist power amount corresponding to an insufficient amount of the actual turbine power relative to the target turbine power, the assist power amount being varied along with a variation in the power difference; and assist control means that controls the power assist device by the calculated assist amount in such a manner that when the assist power amount of the power assist device is lower than or equal to a predetermined value, the power assist device is stopped, wherein the above-referenced power parameters are rates of energy flow. 2. A controller for an internal combustion engine with a supercharger applied to an internal combustion engine having a supercharger for supercharging intake air by exhaust power and a power assist device attached to the supercharger and directly assisting power of the supercharger, the controller comprising: target power calculating means that calculates target power of the supercharger based on an operating state of the internal combustion engine; actual power calculating means that calculates an actual power of the supercharger; assist amount calculating means that calculates an assist amount of the power assist device based on a power difference between the target power and an actual power of the supercharger, the assist power amount corresponding to an insufficient amount of the actual power relative to the target power, the assist power amount being varied along with a variation in the power difference; assist control means that controls the power assist device by the calculated assist amount in such a manner that when the assist power amount of the power assist device is lower than or equal to a predetermined value, the power assist device is stopped, wherein the above-referenced power parameters are rates of energy flow, and means that obtains an exhaust parameter of exhaust from the internal combustion engine by estimation or measurement, wherein the actual power calculating means calculates an actual power of the supercharger based on the exhaust parameter. 3. A controller for an internal combustion engine with a supercharger according to claim 1, wherein: a turbine wheel is rotated by exhaust power and a compressor impeller is coupled to the turbine wheel via a shaft, the shaft is provided with an electric motor as the power assist device, and the internal combustion engine performs supercharging by compressing intake air by rotation of the compressor impeller, turbo models of components of the turbocharger are used, the turbo models express flow of power from the turbine wheel to the compressor impeller, the actual power calculating means calculates the actual turbine power of the turbine by using, at least, a turbine model of the turbine wheel among the turbo models, and the target power calculating means calculates target turbine power of the turbine by using, at least, a compressor model of the compressor impeller among the turbo models. 4. A controller for an internal combustion engine with a supercharger according to claim 3, wherein: the actual power calculating means calculates actual turbine power of the turbine by a forward calculation of the turbo model by using exhaust information as an input parameter, and the target power calculating means calculates target power of the turbine by an inverse calculation of the turbo model by using boost pressure information and intake information as input parameters. 5. A method for controlling a power-assisted supercharger of intake air on an internal combustion engine, the supercharger having a turbine wheel and a compressor impeller and being powered by engine exhaust and a power assist device where output torque of the internal combustion engine is controlled by adjusting engine intake air, said method comprising: calculating a target airflow rate based on a target torque corresponding to a request of a driver; calculating an actual airflow rate actually flowing in an intake air path by estimation or measurement when performing airflow control; calculating a target boost pressure based on the target torque; calculating target turbine power for the turbine wheel of the supercharger based on intake airflow rate information representing at least target airflow rate, actual airflow rate and target boost pressure; calculating actual turbine power being developed by the supercharger turbine wheel based on exhaust parameters representing at least exhaust flow rate, turbine upstream pressure, turbine downstream pressure, and turbine upstream temperature; calculating an amount of power assistance based on a power difference between target turbine power and actual turbine power of the turbine wheel, the amount of power assistance corresponding to an insufficient amount of the actual turbine power relative to the target turbine power, the amount of power assistance varying along with a variation in the power difference; and controlling assistance power supplied to the supercharger by the calculated amount in such a manner that when the amount of power assistance of the power assist device is lower than or equal to a predetermined value, the power assist device is stopped, wherein the above-referenced power parameters are rates of energy flow. 6. A method for controlling a power assisted supercharger of intake air on an internal combustion engine, said supercharger being powered by exhaust and a power assist device, and said method comprising: calculating target power of the supercharger based on an operating state of the internal combustion engine; calculating an actual power of the supercharger; calculating a power assist amount based on a power difference between the target power and actual power of the supercharger, the power assist amount corresponding to an insufficient amount of the actual power relative to the target power, the power assist amount being varied along with a variation in the power difference; and controlling the power assist device by the calculated power assist amount in such a manner that when the power assist amount of the power assist device is lower than or equal to a predetermined value, the power assist device is stopped, wherein the above-referenced power parameters are rates of energy flow, and obtaining an exhaust parameter of exhaust from the internal combustion engine by estimation or measurement, wherein the actual power is calculated as an actual power of the supercharger based on the exhaust parameter. 7. The method of claim 5, wherein the turbine wheel is rotated by engine exhaust and a compressor impeller is coupled to the turbine wheel via shaft, the shaft being provided with an electric motor as a power assist device, and engine intake air is compressed by rotation of the compressor impeller, and wherein: actual turbine power of the turbine is calculated by using, at least, a turbine model of the turbine wheel, and target turbine power of the turbine is calculated using a compressor model of the compressor impeller. 8. The method of claim 7, wherein: actual turbine power of the turbine is calculated by a forward calculation of the turbo model by using exhaust information as an input parameter, and target turbine power of the turbine is calculated by an inverse calculation of the turbo model using boost pressure information and intake information as input parameters.
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