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TECHNICAL PAPERS

Control of a Flywheel Assisted Driveline With Continuously Variable Transmission

[+] Author and Article Information
Alex F. A. Serrarens

Shuiwen Shen, Frans E. Veldpaus

Technische Universiteit Eindhoven, Fac. Mechanical Engineering, Division of Dynamical Systems Design, P.O. Box 513, 5600 MB Eindhoven, The Netherlands

J. Dyn. Sys., Meas., Control 125(3), 455-461 (Sep 18, 2003) (7 pages) doi:10.1115/1.1589033 History: Received January 18, 2001; Revised March 24, 2003; Online September 18, 2003
Copyright © 2003 by ASME
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References

Kim, T., and Kim, H., 2002, “Performance of integrated engine-CVT control considering powertrain loss and CVT response lag,” Proc. IMECHE Part D, 216 (7), pp. 545–554.
Kolmanovsky, I., Sun, J., and Wang L., 1999, “Coordinated Control of Lean Burn Gasoline Engines with Continuously Variable Transmissions,” Proc. of the American Conf., San Diego, USA.
Liu, S., and Paden, B.E., 1997, “A Survey of Today’s CVT Control,” Proc. of the 36th CDC Conf., San Diego, USA, pp. 4738–4743.
Sakaguchi, S., Kimura, E., and Yamamoto, K., 1999, “Development of an Engine-CVT Integrated Control System,” SAE-Paper 1999-01-0754.
Shafai, E., Schmid, A.M., and Geering, H.P., 1994, “Torque Pedal for a Car with a Continuously Variable Transmission,” SAE-Paper 941010.
Takiyama,  T., and Morita,  S., 1999, “Engine-CVT Consolidated Control using LQG Control Theory,” JSAE Review, 20, pp. 251–258.
Takahashi, S., 1998, “Fundamental Study of Low Fuel Consumption Control Scheme Based on Combination of Direct Fuel Injection Engine and Continuously Variable Transmission,” Proc. of the 37th CDC Conf., Tampa, USA, pp. 1522–1529.
Guzzella,  L., Schmid,  A.M., and Schmid,  A.M., 1995, “Feedback Linearization of Spark-Ignition Engines with Continuously Variable Transmission,” IEEE Trans. Control Syst. Technol., 3(1), pp. 54–60.
Liu, S., Stefanopoulou, A.G., and Paden, B.E., 2000, “Effects of Control Structure on Performance for an Automotive Powertain with a Continuously Variable Transmission,” Proc. AVEC2000 Conf., Ann Arbor, USA, pp. 461–468.
Serrarens, A.F.A., 2001, “Coordinated Control of the Zero Inertia Powertrain,” Ph.D. thesis, Technische Universiteit Eindhoven, The Netherlands.
Serrarens, A.F.A, and Veldpaus, F.E., 1999, “Dynamic Modeling for Dimensioning and Control of a Flywheel Assisted Driveline,” Proc. of 1999 EAEC Conf., Barcelona, Spain, pp. 261–268.
Shen, S., Serrarens, A.F.A., Steinbuch, M., and Veldpaus, F.E., 2000, “Control of a Hybrid Driveline for Fuel economy and Driveability,” Proc. AVEC2000 Conf., Ann Arbor, USA, pp. 469–475.
van Druten, R.M., 2001, “Transmission Design of the Zero Inertia Powertrain,” Ph.D. thesis, Technische Universiteit Eindhoven, The Netherlands.
Vroemen, B.G., 2001, “Component Control for the Zero Inertia Powertrain,” Ph.D. thesis, Technische Universiteit Eindhoven, The Netherlands.
Serrarens, A.F.A., Vroemen, B.G., and Veldpaus, F.E., 2001, “A New CVT Powertrain without Jet Start Behavior: Analysis of Design, Dynamics and Control,” Selected papers from the 20th International Congress of Theoretical and Applied Mechanics; Editors: P. Lugner and K. Hedrick, Chicago, USA, pp. 181–205.
Isidori, A., 1995, Nonlinear Control Systems, Springer-Verlag, New York, US.
Slotine, J.J., and Li, W., 1991, Applied Nonlinear Control, Prentice-Hall, Englewood Cliffs, NJ.
Serrarens, A.F.A., and Veldpaus, F.E., 2002, “Driveability Assessment of a CVT-Powertrain with Mechanical Torque Assist,” Proc. of the FISITA 2002 World Automotive Congress, Helsinki, Finland.
Serrarens, A.F.A., Vroemen, B.G., Veldpaus, F.E., and Veenhuizen, P.A., 2002, “Tip Shift in the Zero Inertia Powertrain,” Proc. of the CVT 2002 Congress, VDI Berichte Nr. 1709.
Vroemen, B.G., van Druten, R.M., and Serrarens, A.F.A., 2002, “Efficiency Assessment of a CVT Powertrain with Mechanical Torque Assist,” Proc. of the FISITA 2002 World Automotive Congress, Helsinki, Finland.
Chen, W., Ballance, D.J., Gawthrop, P.J., Gribble, J.J., and O’Reilly, J., 1999, “A Nonlinear Disturbance Observer for Robotic Manipulators,” Technical Report CSC-99008, University of Glasgow, UK.

Figures

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The flywheel assisted driveline
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Torque scheme of the driveline
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The engine map for a 1.6l displacement Otto engine
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Engine operating trajectories
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(a) Power at the wheels; (b) CVT ratio
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Vehicle acceleration; (a) At t=2 s, (b) At t=15 s
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Engine, flywheel, and secondary pulley speed
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(a) VW Bora test vehicle; (b) Control system in vehicle’s trunk
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Experimental results: (a) Pedal in–out CVT; (b) Pedal in–out ZI; (c) Engine speed CVT; (d) Engine and flywheel speed ZI

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