@ARTICLE{Gao_Mingling_Optimization_2024, author={Gao, Mingling and Yan, Shilong and Yu, Chenglong and Hu, Wenjing and Geng, Huihui and Yin, Hongbin and Xu, Mingjun and Zhang, Yufeng}, volume={vol. 73}, number={No 1}, journal={Archives of Electrical Engineering}, pages={201-218}, howpublished={online}, year={2024}, publisher={Polish Academy of Sciences}, abstract={The combination of permanent magnets and electrically excited windings creates an air gap magnetic field. The development of a hybrid magnetic circuit motor with an adjustable magnetic field is of great significance. This article introduces a hybrid magnetic circuit motor design that combines salient pole electromagnetic and permanent magnets. A tubular magnetic barrier has been designed to reduce inter-pole leakage and enhance the usage rate of permanent magnets in the hybrid magnetic circuit motor. The optimum eccentricity of the rotor has been accurately designed, resulting in an improved sinusoidal distribution of the air gap magnetic density waveform. An analysis of the static composite magnetic field under various excitation currents has been conducted, showcasing the capability of the hybrid magnetic circuit motor to stably adjust the air gap flux density level and output torque. A prototype has undergone comprehensive trial production and testing, conclusively confirming the machine’s superior output performance.}, type={Article}, title={Optimization design of a new hybrid magnetic circuit motor}, URL={http://ochroma.man.poznan.pl/Content/130568/13_int_low.pdf}, doi={10.24425/aee.2024.148865}, keywords={combination of electromagnetic and permanent magnets, hybrid magnetic circuit, optimization of rotor structure}, }