Measurement And Control Of Slip In a Continuously Variable Transmission

1. Measurement And Control Of Slip In a Continuously Variable Transmission B. Bonsen, T.W.G.L. Klaassen, K.G.O. van de Meerakker M. Steinbuch, P.A. Veenhuizen

2. CVT • Infinite number of ratios within a range • Shifting while engaged • Optimal use of IC engine

3. CVT

4. Slip • Friction drive • Slip between belt and pulley • Wear • Clamping force

5. Efficiency • Actuation losses • Friction in Belt • Bearing losses • Lubrication

6. Project goals • Optimize CVT transmission efficiency by: • using alternative actuation system • lowering clamping force

7. Lowering clamping force • Advantage: • Less friction losses in the belt • Less actuation power • Less friction in the bearings • More torque on the wheels • Disadvantage: • Increased risk of damage due to slip

8. Measurement of slip • Definition of slip • Measurement of • Calculation of

9. Testrig

10. Slip & Efficiency

11. Slip & Friction

12. Linearizing

13. Variator model

14. Nonlinear model

15. Linearized model

16. Eigenfrequencies

17. Control • Clamping force • Ratio • Speed

18. T d p + F r e f s r - g Slip feedback

19. Clamping force • Safety • Actuation bandwidth • Slip measurement

20. Stability using slip feedback

21. Experimental Results

22. Conclusions • Stable control of slip • Robustness for torque peaks up to 30Nm • Lower clamping force (-30%) • Higher variator efficiency (+4%)