Hua Huang
Chair of Electronic Measurement and Diagnostic Technology, Berlin, Germany
Sebastian Nowoisky
Chair of Electronic Measurement and Diagnostic Technology, Berlin, Germany
René Knoblich
Chair of Electronic Measurement and Diagnostic Technology, Berlin, Germany
Clemens Gühmann
Chair of Electronic Measurement and Diagnostic Technology, Berlin, Germany
Ladda ner artikelhttp://dx.doi.org/10.3384/ecp12076287Ingår i: Proceedings of the 9th International MODELICA Conference; September 3-5; 2012; Munich; Germany
Linköping Electronic Conference Proceedings 76:29, s. 287-294
Publicerad: 2012-11-19
ISBN: 978-91-7519-826-2
ISSN: 1650-3686 (tryckt), 1650-3740 (online)
Synchronization is a core component in the automotive powertrain. It uses friction and locking elements to synchronize the occurring speed difference during gear shifting. The optimization of this shifting process is of high interest in respect to fuel consumption and comfort considerations. Moreover; for the model-based calibration of automated transmissions; detailed simulation models of the synchronization system are also necessary. Highly accurate models allow simulation of nonlinear effects having a major influence on the shifting process. Currently; with less detailed models only rough estimations of the shifting process are possible; it has a reduced meaning for the precise calibration. This paper uses a popular double clutch transmission (DCT) as the research object and presents the detailed hydro-mechanical synchronization model. Firstly; an introduction to the theory of the synchronization is given. Subsequently; a Modelica® based synchronization model consisting of hydro-mechanic actuators and gear shifting synchronizers is presented. Finally; these modules are discussed in detail and evaluated based on different simulations. A comparison with measurement data from a test bench is also included in the end.
synchronization; hydraulic; gear shifting; double clutch transmission; physical modeling; automotive
[1] B. Wede. Modellierung eines 6-Gang-Schaltgetriebes mit Hilfe der Modellierungssprache Modelica. GRIN Verlag GmbH; 2010.
[2] U. Schreiber; J. Schindler; and E. Steinmetz. Systemanalyse in der KFZ–Antriebstechnik; Objektorientierte Modellbildung und Simulation kompletter KFZ–Antriebsstränge. 6. Band. Expert Verlag; Renningen; 2001.
[3] C. Gühmann. Model-based testing of automotive electronic control units. In 3rd International Conference on Materials Testing; Nürnberg; 2005.
[4] M. Schäfer; A. Damm; Th. Pape; and etc. The control unit of volkswagen’s new dualclutch transmission. In 6. Internationales CTI-Symposium Innovative Fahrzeug-Getriebe; Berlin; 2007.
[5] Volkswagen. Self-study Programme 390: The 7-speed Double-clutch Gearbox 0AM. Volkswagen AG; 2007.
[6] G. Lechner and B. Bertsche. Automotive Transmissions: Fundamentals; Selection; Design and Application. Springer; 1999.
[7] S. Nowoisky; R. Knoblich; and C. Gühmann. Comparison of different model types based on a synchronization of an automated manual transmission. In Clemens Gühmann; Jens Riese; and Thieß-Magnus Wolter; editors; Simulation und Test für die Automobilelektronik IV; page 38...47; Wankelstra13 D-71272 Renningen; 2012. Expert Verlag.
[8] INA. Detent Pins for Automotive Transmissions. Schaeffler Technologies AG & Co. KG; 8 2007.
[9] INA. Intermediate Rings for Multi-Cone Synchronizer Systems. Schaeffler Technologies AG & Co. KG; 8 2007.
[10] E. Kirchner. Leistungsübertragung in Fahrzeuggetrieben. Springer; 2007.
[11] Hylib (2009); version 2.7. Product help; Modelon; 2009.
[12] Modelica standard library (2008); version 3.1. Product help; Modelica Association; 2008.
[13] R. Knoblich; J. Beilharz; and C. Gühmann. Modellbasierte steuergeräteentwicklung für kfzgetriebesysteme am prüfstand. In Tagungsband Mechatronik 2011; Dresden; 31.Maerz - 1.April 2011. T. Betram; B. Corves; K. Janschek; 2011.
[14] S. Nowoisky; C. Shen; and C. Gühmann. Detailed model of a hydromechanical double clutch actuator with a suitable control algorithm. In Proceedings of the 8th International Modelica Conference. The Modelica Association and Fraunhofer Institute for Integrated Circuits IIS; Design Automation Division EAS; 2011.