A mathematical model enabling to predict the electromagnetic x-y forces and torque for a given input current in a Multi-Sector Permanent Magnet Synchronous (MSPMS) machine is presented. The rotor static eccentricity is also accounted and the analytical calculations are validated by means Finite Element Analysis (FEA). Furthermore, a novel force and torque control is proposed based on input current minimization and is applied to suppress the Unbalanced Magnetic Pull (UMP) caused by the rotor eccentricity. The effective operation of the force suppression technique is verified by means of FEA
Bearingless motors combine in the same structure the characteristics of conventional motors and magn...
There are three principal sources of noise and vibration in electrical machines: electromagnetic sou...
Two different approaches to characterize the torque and radial force production in a Bearingless Mul...
A mathematical model enabling to predict the electromagnetic x-y forces and torque for a given input...
The paper presents an alternative radial force control technique for a Multi-Sector Permanent Magnet...
Radial force control in electrical machines has been widely investigated for a variety of bearingles...
Radial force control in electrical machines has been widely investigated for a variety of bearingles...
The radial force control technique for a triple three-phase Surface Permanent Magnet (SPM) machine i...
The radial force control has been widely investigated for a variety of machine topologies aiming at ...
In the field of electrical machines for radial force control, several solutions have been proposed, ...
In permanent-magnet synchronous machines (PMSMs) electromagnetic forces are identified as the princi...
Bearingless motors combine in the same structure the characteristics of conventional motors and magn...
There are three principal sources of noise and vibration in electrical machines: electromagnetic sou...
Two different approaches to characterize the torque and radial force production in a Bearingless Mul...
A mathematical model enabling to predict the electromagnetic x-y forces and torque for a given input...
The paper presents an alternative radial force control technique for a Multi-Sector Permanent Magnet...
Radial force control in electrical machines has been widely investigated for a variety of bearingles...
Radial force control in electrical machines has been widely investigated for a variety of bearingles...
The radial force control technique for a triple three-phase Surface Permanent Magnet (SPM) machine i...
The radial force control has been widely investigated for a variety of machine topologies aiming at ...
In the field of electrical machines for radial force control, several solutions have been proposed, ...
In permanent-magnet synchronous machines (PMSMs) electromagnetic forces are identified as the princi...
Bearingless motors combine in the same structure the characteristics of conventional motors and magn...
There are three principal sources of noise and vibration in electrical machines: electromagnetic sou...
Two different approaches to characterize the torque and radial force production in a Bearingless Mul...