![]() Finally, the prototype is tested under different load conditions and results of the analytical calculations and finite element analysis is validated. Finite element analysis of the motor is conducted on ANSYS Maxwell. Printed circuit board (PCB) stators in coreless axial flux permanent magnet (AFPM) machines have been proposed, designed, and studied for use in multiple industries due to their design flexibility. After that, using a genetic algorithm the design parameters are optimized. Compared with the traditional coreless AFPM motor, this novel topology for a Halbach permanent magnet array PCB stator AFPM motor has larger air-gap magnetic flux density and air-gap flux per pole. In this research, we have analytically calculated the motor parameters starting from Maxwell’s equations. A novel topology Halbach permanent magnet array is proposed and applied to the design of a printed circuit board (PCB) axial flux permanent magnet (AFPM) motor. PCB winding technology is a promising area in the future, due to their suitability for mass production with high accuracy and easy integration with power electronics units. Because of thin copper traces eddy current losses on the windings will be negligibly small. The windings are easy to mass produce and they can work on high speeds. ![]() PCB motor is a type of the axial-flux motors whose windings are positioned on a printed circuit board. But the main problem with the axial-flux machines is that they are not easy to mass produce due to their slotless stators. The Design and Implementation of PCB Motor Brief Summary:Īxial-flux machines are becoming more and more popular due to their small length and high dynamic performance, namely high torque and power density.
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