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Open-Circuit Fault Control Techniques for Bearingless Multisector Permanent Magnet Synchronous Machines

Zhuang Wen, Giorgio Valente, Andrea Formentini, Luca Papini, Chris Gerada, Pericle Zanchetta

2021IEEE Transactions on Industry Applications14 citationsDOI

Abstract

This article presents three-phase and single-phase open-circuit fault-tolerant control strategies of radial suspension force and torque generation for bearingless multisector surface mounted permanent magnet synchronous machines. A combined winding topology is installed in the stator so that each phase contributes to both suspension force and motoring torque production. Indeed, a triple sectored three-phase winding is employed. Each three-phase winding is supplied by a power converter to independently control the suspension force vector and torque over each sector. An analytical formulation of the force and torque generation is described considering both three-phase open-circuit and single-phase open-circuit fault conditions. The analytical models of the machine are presented in a generalized matrix form so that they can be applied to any machine with a multisector winding structure. The analytical models are then used to derive the control algorithms that allow us to control the bearingless machine when a whole three-phase winding or one phase of one or two sectors are open circuited. The theoretical analysis is verified with both finite elements analysis and experiment tests. This system shows a good open-circuit fault-tolerant capability.

Topics & Concepts

StatorTorqueControl theory (sociology)MagnetSuspension (topology)Fault (geology)EngineeringFault toleranceTopology (electrical circuits)Computer scienceMechanical engineeringElectrical engineeringPhysicsControl (management)MathematicsReliability engineeringPure mathematicsArtificial intelligenceHomotopyThermodynamicsGeologySeismologyMagnetic Bearings and Levitation DynamicsElectric Motor Design and AnalysisSensorless Control of Electric Motors
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