Sebastian Nowoisky
Technische Universität Berlin, Chair of Electronic Measurement and Diagnostic Technology, Germany
Chi Shen
Technische Universität Berlin, Chair of Electronic Measurement and Diagnostic Technology, Germany
Clemens Gühmann
Technische Universität Berlin, Chair of Electronic Measurement and Diagnostic Technology, Germany
Download articlehttp://dx.doi.org/10.3384/ecp11063467Published in: Proceedings of the 8th International Modelica Conference; March 20th-22nd; Technical Univeristy; Dresden; Germany
Linköping Electronic Conference Proceedings 63:52, p. 467-473
Published: 2011-06-30
ISBN: 978-91-7393-096-3
ISSN: 1650-3686 (print), 1650-3740 (online)
This paper presents the detailed model of a double clutch actuator with a suitable control algorithm. Firstly; there is an introduction into the theory of a double clutch transmission and the aim of this project. The simulation model with a Dymola® and a MATLAB®/Siulink® part is discussed. The library of a vehicle model with a highly det hydromechanical clutch is introduced; which includes models with different levels of detail. The modeling of the hydraulic and the mechanic parts of the clutch actuator is discussed; concentrating on the problem of determining the parameters of the actuator modules e.g.; the hydraulic valves. Some parts could not be used from existing Dymola® libraries; in those cases; new models are created based on Modelica code.
[1] U. Eggert; C. Kraus; M. Leibbrandt and K. Bernemann. The new family of Powershift Transmissions at GETRAG FORD Transmissions GmbH. In VDI Berichte 1943; Getriebe in Fahrzeugen 2006; page 289-308; Düsseldorf; 2006. VDI Verlag.
[2] S. Rinderknecht and U. Knödel. Evolution and Future Potential of Passenger Car Transmissions in Layshaft Design. In VDI Berichte 2029; Getriebe in Fahrzeugen 2008; Düsseldorf; 2008. VDI Verlag.
[3] C. Gühmann. Model-Based Testing of Automotive Electronic Control Units. In 3rd International Conference on Materials Testing: Test 2005; 2005. Nürnberg.
[4] H. Isernhagen and C. Gühmann. Modelling of a Double Clutch Transmission with an Appropriate Controller for the Simulation of Shifting Processes. In Bernhard Bachmann; editor; Proceedings of the 6th International Modelica Conference; pages 333–339; Bielefeld; Germany; 2008. Modelica Association and University of Applied Sciences Bielefeld.
[5] Hylib (2009); version 2.7. Product help; Modelon; 2009.
[6] G. Lechner; H. Naunheimer and S. Day. Automotive Transmissions: Fundamentals; Selection; Design and Application. Springer; Berlin; Heidelberg; New York; 1st edition; 1999.
[7] F. Rudolph; M. Schäfer; A. Damm; F.-T. Metzner and I. Steinberg. Das innovative 7-Gang- Doppelkupplungsgetriebe für die Kompaktklasse von Volkswagen. 28. InternationalesWiener Motorensymposium; 639:242–264; 2007.
[8] D. Findeisen. Ölhydraulik: Handbuch für die hydrostatische Leistungsübertragung in der Fluidtechnik. Springer; 2006.
[9] W. Staudt. Kraftfahrzeugmechatronik. Bildungsverl. EINS; 2007.
[10] U. Kiencke and L. Nielsen. Automotive Control Systems; For Engine; Driveline; and Vehicle. Springer; Berlin; Heidelberg; New York; 2nd edition edition; 2005.
[11] E. Kirchner. Leistungsübertragung in Fahrzeuggetrieben. Springer Verlag; Berlin; Heidelberg; New York; 2007.
[12] K. Reif. Automobilelektronik: Eine Einführung für Ingenieure. ATZ-MTZ-Fachbuch. Vieweg+Teubner; Wiesbaden; 3rd edition; 2009.
[13] L. Holger and W. Wendt. Taschenbuch der Regelungstechnik. Verlag Harri Deutsch; 2009.
[14] Emission Test Cycles. Summary of worldwide driving cycles. www.dieselnet.com/standards/cycles; 24.10. 2010.
[15] R. Kubalczik; M. Ebenhoch and H. Schneider. 7-Gang Doppelkupplungsgetriebe für sportliche Anwendungen. In VDI Berichte 1943; Getriebe in Fahrzeugen 2006; page 309...324; Düsseldorf; 2006. VDI Verlag.