Dynamical Drag Torque Adaptation for Combustion Engines using High Gain Observer

Engelbert Grünbacher; Daniel Alberer; Luigi del Re; Michael Schinnerl; Christoph Ertl

Dynamical Drag Torque Adaptation for Combustion Engines using High Gain Observer

Engelbert Grünbacher
, Daniel Alberer
, Luigi del Re
, Michael Schinnerl
, Christoph Ertl

Institute of Design and Control of Mechatronical Systems

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

Drag torque compensation is a part of the control units of modern gasoline and diesel engines. To achieve it, a characteristic drag torque curve as a function of the engine speed is usually saved in the ECU. Since the drag torque will not be constant during an engines lifetime, this curve must be adapted. This paper proposes an approach to adapt the drag torque curve. The goal is achieved using a high gain observer known as a Kalman filter. The proposed method combines detection of drag torque curve errors and adaptation of the drag torque curve in one step. The effects of variable geometry turbochargers are included in the overall curve by an extension of the basic algorithm. The performance of the method is shown using data and measurements on a BMW M47D engine. As the measurements confirm, the proposed method works consistently and correctly.

Original language	English
Title of host publication	SAE world congress 2005
Number of pages	10
Publication status	Published - Apr 2005

Fields of science

202 Electrical Engineering, Electronics, Information Engineering
202027 Mechatronics
202034 Control engineering
203027 Internal combustion engines
206001 Biomedical engineering
206002 Electro-medical engineering
207109 Pollutant emission

Cite this

@inproceedings{a4ac7330bb29465c82846125b36f7dff,

title = "Dynamical Drag Torque Adaptation for Combustion Engines using High Gain Observer",

abstract = "Drag torque compensation is a part of the control units of modern gasoline and diesel engines. To achieve it, a characteristic drag torque curve as a function of the engine speed is usually saved in the ECU. Since the drag torque will not be constant during an engines lifetime, this curve must be adapted. This paper proposes an approach to adapt the drag torque curve. The goal is achieved using a high gain observer known as a Kalman filter. The proposed method combines detection of drag torque curve errors and adaptation of the drag torque curve in one step. The effects of variable geometry turbochargers are included in the overall curve by an extension of the basic algorithm. The performance of the method is shown using data and measurements on a BMW M47D engine. As the measurements confirm, the proposed method works consistently and correctly.",

author = "Engelbert Gr{\"u}nbacher and Daniel Alberer and \{del Re\}, Luigi and Michael Schinnerl and Christoph Ertl",

year = "2005",

month = apr,

language = "English",

booktitle = "SAE world congress 2005",

}

TY - GEN

T1 - Dynamical Drag Torque Adaptation for Combustion Engines using High Gain Observer

AU - Grünbacher, Engelbert

AU - Alberer, Daniel

AU - del Re, Luigi

AU - Schinnerl, Michael

AU - Ertl, Christoph

PY - 2005/4

Y1 - 2005/4

N2 - Drag torque compensation is a part of the control units of modern gasoline and diesel engines. To achieve it, a characteristic drag torque curve as a function of the engine speed is usually saved in the ECU. Since the drag torque will not be constant during an engines lifetime, this curve must be adapted. This paper proposes an approach to adapt the drag torque curve. The goal is achieved using a high gain observer known as a Kalman filter. The proposed method combines detection of drag torque curve errors and adaptation of the drag torque curve in one step. The effects of variable geometry turbochargers are included in the overall curve by an extension of the basic algorithm. The performance of the method is shown using data and measurements on a BMW M47D engine. As the measurements confirm, the proposed method works consistently and correctly.

AB - Drag torque compensation is a part of the control units of modern gasoline and diesel engines. To achieve it, a characteristic drag torque curve as a function of the engine speed is usually saved in the ECU. Since the drag torque will not be constant during an engines lifetime, this curve must be adapted. This paper proposes an approach to adapt the drag torque curve. The goal is achieved using a high gain observer known as a Kalman filter. The proposed method combines detection of drag torque curve errors and adaptation of the drag torque curve in one step. The effects of variable geometry turbochargers are included in the overall curve by an extension of the basic algorithm. The performance of the method is shown using data and measurements on a BMW M47D engine. As the measurements confirm, the proposed method works consistently and correctly.

M3 - Conference proceedings

BT - SAE world congress 2005

ER -