Permanent Magnet Synchronous Machines
Eriksson, Sandra
Permanent Magnet Synchronous Machines
English[eng]
MPC||predictive current control (PCC)||fault diagnosis||modeling||back electromotive force||finite-element analysis||sensorless control||brushless dc motor||flying start||periodic timer interrupt||digital simulation||torque control||saturation||renewable energy||finite element method||sensorless motor||electric propulsion systems||electric vehicle||energy efficiency||sub-fractional slot-concentrated winding||stability||design tools||brushless machine||permanent magnet synchronous motor (PMSM)||electrical signature analysis||Vernier machine||multiphase machine||interior permanent magnet synchronous machines||automotive applications||pulse width modulation||current ripples||PMSM||wave power||outer rotor||electric vehicle (EV)||power control||condition monitoring||energy conversion||sliding mode observer (SMO)||field weakening||small wind turbines||interior permanent-magnet machines||permanent-magnet machine||free-wheeling period||brushless DC (BLDC) motor||speed tracking||current spikes||flux switching machine||Brushless DC motors||magnetic reluctance network||winding inductance||parameter perturbation||DB-DTFC (deadbeat-direct torque and flux control)||R-C filter||phase-advanced method||motor drives||PMSM (permanent magnet synchronous motor)||coils||predictive maintenance||cogging torque||finite element analysis||permanent magnet material||vector control||linear generator||commutation error compensation||electrical machine design||permanent magnet synchronous generator||wind generator||mathematical model||permanent magnet synchronous motor||hybrid electric vehicle (HEV)||stator||bulk electric system||permanent magnet synchronous machine (PMSM)||synchronous generator
Permanent Magnet Synchronous Machines
English[eng]
MPC||predictive current control (PCC)||fault diagnosis||modeling||back electromotive force||finite-element analysis||sensorless control||brushless dc motor||flying start||periodic timer interrupt||digital simulation||torque control||saturation||renewable energy||finite element method||sensorless motor||electric propulsion systems||electric vehicle||energy efficiency||sub-fractional slot-concentrated winding||stability||design tools||brushless machine||permanent magnet synchronous motor (PMSM)||electrical signature analysis||Vernier machine||multiphase machine||interior permanent magnet synchronous machines||automotive applications||pulse width modulation||current ripples||PMSM||wave power||outer rotor||electric vehicle (EV)||power control||condition monitoring||energy conversion||sliding mode observer (SMO)||field weakening||small wind turbines||interior permanent-magnet machines||permanent-magnet machine||free-wheeling period||brushless DC (BLDC) motor||speed tracking||current spikes||flux switching machine||Brushless DC motors||magnetic reluctance network||winding inductance||parameter perturbation||DB-DTFC (deadbeat-direct torque and flux control)||R-C filter||phase-advanced method||motor drives||PMSM (permanent magnet synchronous motor)||coils||predictive maintenance||cogging torque||finite element analysis||permanent magnet material||vector control||linear generator||commutation error compensation||electrical machine design||permanent magnet synchronous generator||wind generator||mathematical model||permanent magnet synchronous motor||hybrid electric vehicle (HEV)||stator||bulk electric system||permanent magnet synchronous machine (PMSM)||synchronous generator