In this paper, the performance of two control systems of induction motors for automotive applications were compared in order to highlight the differences in terms of response speed, robustness and noise immunity. The first system is realized through a field-oriented control with PI controllers, while the second system is realized through a field-oriented control with Sliding Mode Controllers. Both controls are designed to follow the torque references as required for the vehicles and are tested with typical load profiles of vehicles. It also designed a sliding mode observer flux.
Alagna, S., Cipriani, G., Corpora, M., Di Dio, V., Miceli, R. (2016). Sliding mode torque control of an induction motor for automotive application with sliding mode flux observer. In 2016 IEEE International Conference on Renewable Energy Research and Applications, ICRERA 2016 (pp.1207-1212). Institute of Electrical and Electronics Engineers Inc. [10.1109/ICRERA.2016.7884525].
Sliding mode torque control of an induction motor for automotive application with sliding mode flux observer
Cipriani, G.;Corpora, M.;Di Dio, V.;Miceli, R.
2016-01-01
Abstract
In this paper, the performance of two control systems of induction motors for automotive applications were compared in order to highlight the differences in terms of response speed, robustness and noise immunity. The first system is realized through a field-oriented control with PI controllers, while the second system is realized through a field-oriented control with Sliding Mode Controllers. Both controls are designed to follow the torque references as required for the vehicles and are tested with typical load profiles of vehicles. It also designed a sliding mode observer flux.
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