@ARTICLE{Shchur_Ihor_Improved_2022, author={Shchur, Ihor and Mazur, Damian and Makarchuk, Olekcandr and Bilyakovskyy, Ihor and Turkovskyi, Valentyn and Kwiatkowski, Bogdan and Kalandyk, Dawid}, volume={vol. 32}, number={No 4}, journal={Archives of Control Sciences}, pages={677-707}, howpublished={online}, year={2022}, publisher={Committee of Automatic Control and Robotics PAS}, abstract={The development of electric vehicles (EV) necessitates the search for new solutions for configuring powertrain systems to increase reliability and efficiency. The modularity of power supplies, converters, and electrical machines is one such solution. Among modular electric machines, dual three-phase (DTP) motors are the most common in high-power drives. To simplify low and medium power drives for EVs based on DTP PM motor, it is proposed to use a BLDC drive and machine of the simplest design – with concentrated windings and surface mounted PMs on the rotor. To study and create such drives, an improved mathematical model of DTP PM machine was developed in this work. It is based on the results of 2D FEM modeling of the magnetic field. According to the developed method, the dependences of the self and mutual inductances between all phase windings from the angle of rotor position and loads of different motor modulus were determined. Based on these inductances, the circuit computer model of DTP PM machine was created in the Matlab/Simulink. It has a high simulation speed and a high level of adequacy, which is confirmed by experimental studies with a mock-up sample of the electric drive system.}, type={Article}, title={Improved Matlab/Simulink model of dual three-phase fractional slot and concentrated winding PM motor for EV applied brushless DC drive}, URL={http://sd.czasopisma.pan.pl/Content/125429/PDF/2-Mazur_int.pdf}, doi={10.24425/acs.2022.143667}, keywords={electric vehicle (EV), dual three-phase (DTP) motor, BLDC drive, fractional slot concentrated winding PM motor, FEM modeling, self and mutual differential inductances, Matlab/Simulink model}, }