Discrete sliding mode control based on exponential reaching law and time delay estimation for an asymmetrical six‐phase induction machine drive
DATE:
2019-11
UNIVERSAL IDENTIFIER: http://hdl.handle.net/11093/7245
EDITED VERSION: https://onlinelibrary.wiley.com/doi/10.1049/iet-epa.2019.0058
UNESCO SUBJECT: 3307 Tecnología Electrónica
DOCUMENT TYPE: article
ABSTRACT
This study deals with the problem of controlling rotor speed and stator currents of an asymmetrical six-phase
induction machine with uncertain dynamics, disturbances, and unmeasurable rotor currents and proposes a robust non-linear
variable structure controller. First of all, an outer control loop based on a proportional–integral regulator is performed to control
the rotor speed and to construct the desired stator current references. Then, the inner loop is performed based on the proposed
method that combines the time delay estimation method and discrete sliding mode control based on exponential reaching law.
This structure allows an accurate and simple estimation of uncertainties and rotor currents, a high-tracking precision, a
convergence of the stator currents to their known desired references in finite-time and chattering reduction. The design
procedure is detailed step by step and the stability analysis and the convergence time are established for the current closedloop system. Experimental work was carried out on an asymmetrical six-phase induction motor drive to show the effectiveness
and performance of the proposed robust non-linear discrete method. The results obtained highlighted the good tracking
performance of the stator currents
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