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A control strategy of a permanent magnet synchronous motor for an electric vehicle

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The traditional modulation method of the inverter in a permanent magnet synchronous mo- tor (PMSM) is lengthy and computationally intensive. Based on this, a simplified sinusoidal pulse width modulation method is proposed. In this method, voltage space vectors in each sector are synthesized, and the sector in which the synthesized vector is located is determined by the rotation angle of the resultant vector, and then the acting time of the basic vector is calculated by the voltage difference of the phase voltage. The problem of trigonometric functions and coordinate conversion is not involved in the whole calculation process, the calculation model is simple, and it is easy to realize digitization. Mathematical modeling is carried out by using the simulation software Matlab, and the correctness of the calculation method after optimization is verified, which provides an idea for the later research of the inverter modulation method.
Słowa kluczowe
Rocznik
Strony
673--685
Opis fizyczny
Bibliogr. 21 poz., rys.
Twórcy
autor
  • College of Intelligent Manufacturing, Qingdao Huanghai University, Qingdao, China
autor
  • College of Intelligent Manufacturing, Qingdao Huanghai University, Qingdao, China
Bibliografia
  • 1. Cheng S.Q., et al., 2019, Research and implementation of vector control strategy for permanent magnet synchronous motor (in Chinese), Journal of Hubei Institute of Automotive Industry, 33, 2, 55-59.
  • 2. Deng G.F., Wang H., Wu X., Huang S.D., Huang K.Y., 2018, A position sensorless control strategy for permanent magnet synchronous motor that can suppress the nonlinear influence of the inverter (in Chinese), Chinese Journal of Electrical Engineering, 38, 24, 7381-7390+7464.
  • 3. Fei W.J., Shao D.G., 2018, Influence of PWM modulation on control performance of brushless DC motor (in Chinese), Micromotor, 51, 8, 55-60.
  • 4. Hu C.M., Liu M.N., Wei C.Q., Wang T., 2021, Development of a collaborative controller for a dual-motor independent drive electric tractor (in Chinese), Journal of Henan University of Science and Technology (Natural Science Edition), 42, 1, 27-33+39+3-4.
  • 5. Jin F.Z., Wan H., Huang Z.F., Gu M.X., 2020, PMSM vector control based on fuzzy PID controller, Journal of Physics: Conference Series, 1617, 1.
  • 6. Ke X.B., Guo L., Yuan X.F., Li Y., Xu X.L., 2019, Control of permanent magnet synchronous motor based on fuzzy sliding mode control strategy, Machinery and Electronics, 37, 8, 60-63+68.
  • 7. Krzysztofiak M., Skowron M., Orlowska-Kowalska T., 2020, Analysis of the impact of stator inter-turn short circuits on PMSM drive with scalar and vector control, Energies, 14, 1, 153.
  • 8. Li Y.B., Yang Z.X., 2018, Design and analysis of non-uniform magnetic pole disk type ironless permanent magnet ISG motor (in Chinese), Journal of Henan University of Science and Technology (Natural Science Edition), 39, 4, 28-33+6.
  • 9. Luo Y., Wu F., Liu Z.Y., Liu L., Qi P.W., Wei Y.H., 2019, Research on control strategy of permanent magnet synchronous motor for pure electric vehicle (in Chinese), Journal of Chongqing University of Technology (Natural Science), 33, 2, 1-7.
  • 10. Petkar S.G., Eshwar K., Thippiripati V.K., 2020, A modified model predictive current control of permanent magnet synchronous motor drive, IEEE Transactions on Industrial Electronics, 68, 2, 1025-1034.
  • 11. Shanthi R., Kalyani S., Devie P.M., 2021, Design and performance analysis of adaptive neuro-fuzzy controller for speed control of permanent magnet synchronous motor drive, Soft Computing, 25, 2, 1519-1533.
  • 12. Sun C.C., Gong G.F., Yang H.Y., Wang F., 2019, Fuzzy sliding mode control for synchronization of multiple induction motors drive, Transactions of the Institute of Measurement and Control, 41, 11, 3223-3234.
  • 13. Sun X.L., Li Z.G., Wang X.L., Li C.J., 2019, Technology development of electric vehicles: A review, Energies, 13, 1, 90.
  • 14. Takahata R., Wakui S., Miyata K., Noma K., Senoo M., 2019, Influence of rotor eccentricity on vibration characteristics of permanent magnet synchronous motor, IEE Journal of Industry Applications, 8, 3, 558-565 .
  • 15. Wang S.W., Wang W., Fan J.L., Tian X., 2019, Analysis and optimization of electromagnetic noise of permanent magnet synchronous motor for vehicles (in Chinese), Automotive Technology, 8, 12-15.
  • 16. Wu Q.M., Wang T.T., Li X.Y., 2018, Efficiency optimization control of IPMSM for electric vehicles based on Mann iteration (in Chinese), Micromotor, 51, 3, 11-17+42.
  • 17. Wu X., Xu Y.H., Liu J., Lv C., Zhou J.Z., Zhang Q., 2019, Characteristics analysis and fuzzy fractional-order pid parameter optimization for primary frequency modulation of a pumped storage unit based on a multi-objective gravitational search algorithm, Energies, 13, 1, 137.
  • 18. Yu H.C., Lu C.G., 2014, Recent development of electric vehicles, Applied Mechanics and Materials, 490-491, 968-971
  • 19. Zhang C.M., Liu H.P., Chen S.J., Wang F.J., 2008, Application of neural networks for permanent magnet synchronous motor direct torque control, Journal of Systems Engineering and Electronics, 19, 3, 555-561.
  • 20. Zhao J.G., Zhang Q.H., Li H.J., 2019, Design and research based on an electric vehicle in-wheel motor structure (in Chinese), Micromotor, 52, 9, 25-28.
  • 21. Zhao R.D., Zhao B., Xu H.L., Sun P.X., Dong X.M., 2019, Research on control system and strategy of permanent magnet synchronous motor with LC filter, Journal of Electrotechnical Technology, 34, S1, 79-86.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-df3d609c-de76-4d65-8ee5-64e388d2dc65
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