Abstract
With the advent of new permanent magnet materials and the development of electronic technology, an advanced “brushless DC motor (BLDC)” has been produced. Applying this new product (BLDC) to the automatic transmission electronic oil pump of the automobile has brought about major changes in its power source and executive function mechanism. Based on the characteristics of the electronic oil pump, this paper studies the control method of the brushless DC motor and analyzes the electronic oil pump motor. The speed-current double closed-loop control system is adopted, which can adapt to the load abrupt process brought by the disturbance of the hydraulic system and can reach the steady state quickly. And the application circuit is simple, small in size and easy to implement. Oil-current characteristic control can also be added in subsequent studies to achieve the control requirements of the hydraulic system to precisely adjust the main pressure.
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References
Ning, L., Jing, B.: Electric Power Drag and Motion Control System. Higher Education Press, Beijing (2009). (in Chinese)
Hu, W.J.: Developments and prospects of permanent magnetic brushless DC motor. Micromotors 35(4), 37–38 (2002). (in Chinese)
Wenzhuo, Z.: Application Technology of Single Chip Microcomputer. Mechanical Industry Press, Beijing (2008). (in Chinese)
Shouqi, W., Yingjie, Y.: Pulse Width Modulation Control Technology for Electric Drive. Mechanical Industry Press, Beijing (1995). (in Chinese)
Cai, Y.C.: Hall position sensors in brushless DC motor. Small Spec. Electr. Mach. 27(5), 23–25 (1999). (in Chinese)
Wei, Z.: Principle and Application of DC Brushless Motor. Mechanical Industry Press, Beijing (1996). (in Chinese)
Chen, W., Liu, Z., Liu, K., Xia, C., Yan, Q.: Three-phase voltage vector position detection method for brushless DC motor under low speed. Trans. China Electrotech. Soc. 32(4), 133–139 (2017). (in Chinese)
Changliang, X.: Brushless DC Motor Control System. Science and Technology Press, Beijing (2009). (in Chinese)
Wei, X., Bin, D., Jing, L.: Research on torque ripple of brushless DC motor under non-ideal back EMF. J. Syst. Simul. 6 (2018, in Chinese)
Junjie, Z., Haoran, L., Feng, J., Xiangzhong, W.: Research on improved SEPIC circuit of brushless DC motor. Chin. J. Sci. Instrum. 11, 2866–2873 (2017). (in Chinese)
Zhu, L.: Optimization of cogging torque and pole slot ratio of permanent magnet brushless DC motor. Harbin University of Science and Technology (2014, in Chinese)
Xia, C.: Permanent Magnet Brushless DC Motor and Its Control Electrotechnical Science, vol. 27, no. 3, (2012, in Chinese)
Wu, C.: Research on structure and design of new brushless DC oil pump motor. Shenyang University of Technology (2015, in Chinese)
Acknowledgments
This research was supported by Chongqing Science and Technology Innovation Leading Talents Support Plan (CSTCCXLJRC201716), National Science and Technology Support Program (2014BAG10B018).
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Zeng, Y., Wang, H., Zhou, Z. (2020). DC Motor Application and Control Method in Automobile Automatic Transmission Electronic Oil Pump. In: Abawajy, J., Choo, KK., Islam, R., Xu, Z., Atiquzzaman, M. (eds) International Conference on Applications and Techniques in Cyber Intelligence ATCI 2019. ATCI 2019. Advances in Intelligent Systems and Computing, vol 1017. Springer, Cham. https://doi.org/10.1007/978-3-030-25128-4_210
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DOI: https://doi.org/10.1007/978-3-030-25128-4_210
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