The designed new axial flux generator move as permanent speed of 500 rpm and so maximum voltage of approximately 120 V per phase is obtained. This aspect of axial-flux motor design typically deli vers a 30 torque density advantage over a conventional radial motor. This means for the same permanent magnet and copper winding provision, you get more torque. In an axial flux permanent magnet motor with the two-stator-single-rotor construction, where the magnetic flux travels through the permanent magnets from one. Within this study, arrangements have been made depending on certain standards in order that permanent magnets and coils obtain direct alternating current. With an axial-flux design there’s a larger radius than in a conventional radial motor, you get more torque for the same force. Three-dimensioned electromagnetic analysis of the designed machine has been done through the finite element method and transient solutions are suggested based on this. Moreover, easiness in the production stage of the machine is provided. Aim of this study is to provide both reduction of iron loss and making the machine become lighter by reducing the number of the rotors to be used. Core is not used in the stator of the machine intended to be designed. characteristics of an axial flux hysteresis motor and effect of air gap length on hysteresis ring thickness and stator winding turns is investigated. One more rotor than the number of stators here is used. Designing aimed the axial flux generator is placed into the single end of the side rotor in the machine and permanent magnets are placed into the double ends of the middle rotor.
In this study, axial flux coreless permanent magnet synchronous generator (PMSG) is designed as double stators and three rotors and its electromagnetic and structural characteristics are analyzed.