Reliable Fault-Tolerant Control Design for LPV Systems using Admissible Model Matching
Document typeConference report
Rights accessRestricted access - publisher's policy
In the paper two power-invariant real and complex state space transformations for modeling multi-phase electrical machines in a compact and general form are proposed. In particular the paper deals with the modeling of multi-phase permanent magnet synchronous machines with an arbitrary number of phases and an arbitrary shape of the rotor flux. The dynamic model of the motor is obtained using a Lagrangian approach and in the frame of the Power-Oriented Graphs technique. The obtained models are equivalent from a mathematical point of view and can be directly implemented in Simulink. The complex transformed model is quite compact and uses a reduced order state vector. Some simulation results end the paper.
CitationMontes de Oca, S.; Puig, V. Reliable Fault-Tolerant Control Design for LPV Systems using Admissible Model Matching. A: IFAC World Congress. "18th IFAC World Congress". Milano: 2011, p. 13735-13740.