An iterative FEA-based approach for the design of fault-tolerant IPM-FSCW machines

This paper presents an iterative finite-element analysis (FEA) approach for the design of integrated electric drives comprising of interior permanent magnet fractional-slot concentrated winding (IPM-FSCW) machines and the stacked poly-phase bridges (SPB) converter. Particular focus is put on fault t...

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Bibliographic Details
Main Authors: Hui Zhang, Wallmark, Oskar, Leksell, Mats
Format: Conference Proceeding
Language:English
Subjects:
Concentrated winding
Fault tolerance
Fault tolerant systems
Finite element analysis
Fractional-slot
Optimized production technology
Permanent magnet machines
Rotors
Short-circuit currents
Torque
Windings
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Summary:This paper presents an iterative finite-element analysis (FEA) approach for the design of integrated electric drives comprising of interior permanent magnet fractional-slot concentrated winding (IPM-FSCW) machines and the stacked poly-phase bridges (SPB) converter. Particular focus is put on fault tolerance to handle a shorted converter submodule and the level of fault tolerance versus compactness (torque density) and power factor is quantified in the form of a case study considering a 30 kW, 2000 rpm machine.
DOI:10.1109/EPE.2015.7309335