OPTIMUM DESIGN OF A FIVE-PHASE SURFACE-MOUNTED PERMANENT MAGNET SYNCRONOUS MOTOR USING BEES ALGORITHM
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Abstract
Permanent magnet synchronous motors are very good alternatives which are increasingly used for lots of applications due to their superior features. Their merits can be considerably enhanced by design optimization, thus reduce production cost and improve performance of motors.
This paper presents a new method for optimum design of a five-phase surface-mounted permanent magnet synchronous motor to achieve reduced total loss with high torque. A multi-objective optimization is performed in search for optimum dimensions of the motor using bees algorithm. The design optimization results in a motor with great improvement regarding the original motor.
This paper presents a new method for optimum design of a five-phase surface-mounted permanent magnet synchronous motor to achieve reduced total loss with high torque. A multi-objective optimization is performed in search for optimum dimensions of the motor using bees algorithm. The design optimization results in a motor with great improvement regarding the original motor.