In order to solve the the lack of car mileage and difficult energy supplement for battery electric vehicle (BEV), range-extender electric vehicle (REEV) has been gradually developed. Most common type of range-extender generator is driven by engine with fixed-speed, and the generator must have efficient electrical performance and low torque ripple. Generator and engine operating at steady state under fixed load will not only improve the efficiency of the vehicle power system but also effectively reduce engine exhaust emissions. Therefore, range-extender electric vehicle have better fuel efficiency. According to the results of machine experiments and numeric, this study verified the application of finite element method in the simulation of the motor electrical performance.Then, this thesis applied the finite element method in range-extender generator development process and presented a suitable design process for ISPM machine moreover improved the permanent magnet reduction design. In addition, the study also discussed the impact of different forms of the rotor for the generator permanent magnet reduction results and electrical properties.