Abstract
Contraposing to the shortage of narrow efficient area and over current when vector control method is applied to vehicle drive motors, this paper proposes a feed-forward MAP-based vector control method of vehicle drive motor. According to required motor torque and speed, directly control the magnitude and direction of voltage space vector to realize the aim of motor torque control. So, the calculation of torque current component and field current component is no need, which not only avoids over current that the PID closed-loop control leads to, improving the reliability of controller, but also avoids the dependence on current measurement, improving control precision and motor efficiency. Finally, simulation results and motor bench test prove this method can significantly enlarge efficient area, and it is suitable for vehicle running conditions.
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References
Haddoun, A., Benbouzid, M.H., Diallo, D.: A loss-minimization DTC scheme for EV induction motors. J. IEEE Transactions on Vehicular Technology 56(1), 81–88 (2007)
Timko, J., Zilková, J., Girovský, P.: Shaft sensorless vector control of an induction motor. J. Acta Technica CSAV (Ceskoslovensk Akademie Ved) 52(1), 81–91 (2007)
Kumar, R., Gupta, R.A., Bhangale, S.V.: Vector control techniques for induction motor drive: A review. J. International Journal of Automation and Control 3(4), 284–306 (2009)
Nait Seghir, A., Boucherit, M.S.: A new neural network based approach for speed control of PM synchronous motor. J. WSEAS Transactions on Circuits and Systems 6(1), 87–93 (2007)
Badsi, B., Masmoudi, A.: DTC of an FSTPI-fed induction motor drive with extended speed range. J. COMPEL - The International Journal for Computation and Mathematics in Electrical and Electronic Engineering 27(5), 1110–1127 (2008)
Vaez-Zadeh, S., Jalali, E.: Combined vector control and direct torque control method for high performance induction motor drives. J. Energy Conversion and Management 48(12), 3095–3101 (2007)
Trentin, A., Zanchetta, P., Gerada, C.: Optimized commissioning method for enhanced vector control of high-power induction motor drives. J. IEEE Transactions on Industrial Electronics 56(5), 1708–1717 (2009)
Kadjoudj, M., Taibi, S., Benbouzid, M.E.H.: Permanent-magnet-synchronous-motor speed control using fuzzy adaptive controller. J. Advances in Modeling and Analysis C 62(3-4), 43–55 (2007)
Vavrus, V., Vittek, J., Malek, M.: Velocity vector control of a linear permanent magnet synchronous motor. J. Komunikacie 9(4), 14–19 (2007)
Singh, B., Jain, P., Mittal, A.P.: Sensorless DTC IM drive for an EV propulsion system using a neural network. J. International Journal of Electric and Hybrid Vehicles 1(4), 403–423 (2008)
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Zhou, Y. et al. (2011). Study on Feed-Forward MAP-Based Vector Control Method of Vehicle Drive Motor. In: Chen, R. (eds) Intelligent Computing and Information Science. ICICIS 2011. Communications in Computer and Information Science, vol 135. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-18134-4_18
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DOI: https://doi.org/10.1007/978-3-642-18134-4_18
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-18133-7
Online ISBN: 978-3-642-18134-4
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