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Electrical Engineering

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25.06.2021 | Original Paper

Reducing acoustic noise of 3-phase hybrid stepper motor with drive mode

verfasst von: Zhen Peng, Chao Bi, Kailun Yao, Lingli Fang

Erschienen in: Electrical Engineering | Ausgabe 2/2022

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Abstract

Vibration and noise are inseparable. Torque ripple is one of the major sources of acoustic noise in the steady operation of hybrid stepper motor. Identifying the effects of these sources are important for in motor drive research. The paper analyses the relationship between the acoustic noise frequency and harmonic current in 3-phase hybrid stepper motor. The results show that the micro-stepping drive mode of the 3-phase hybrid stepper motor is helpful to improve motor performance and reduce the acoustic noise of the motor. The analysis is helpful to develop high-performance stepper motor and its driver.

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Fang L, Xiao L, Bi C (2021) Electromagnetic structure optimization of 3-phase hybrid stepping motor based on Taguichi method. Electron Sci Technol 34(12):1–7 (in Chinese)

Bi C, Lin S (2008) Analysis of acoustic noise sources of FDB and ADB spindle motors operating at BLDC mode. In: The 4th international conference on power electronics, machines and drives 2008, 2–4 April 2008, York, UK

Tang X, Zhang D, Liu T, Khajepour A, Haisheng Yu, Wang H (2019) Research on the energy control of a dual-motor hybrid vehicle during engine start-stop process. Energy 166:1181–1193CrossRef

Qin Y, Tang X, Jia T, Duan Z, Zhang J, Li Y, Zheng L (2020) Noise and vibration suppression in hybrid electric vehicles: state of the art and challenges. Renew Sustain Energy Rev 124:109782CrossRef

Xia K, Lu J, Dong B, Bi C (2016) Analysis of acoustic noise from electromagnetic torque ripple for brushless DC motor. In: Asia -Pacific Magnetic Recording Conference Digest (APMRC), pp 1–2

Hu C, Tang X, Zou L, Yang K, Li Y, Zheng L (2019) Numerical and experimental investigations of noise and vibration characteristics for a dual-motor hybrid electric vehicle. IEEE Access 7:77052–77062CrossRef

Kawa M, Kiyota K, Furqani J, Chiba A (2019) Acoustic noise reduction of a high-efficiency switched reluctance motor for hybrid electric vehicles with novel current waveform. IEEE Trans Ind Appl 55(3):2519–2528CrossRef

Kangning CUI, Shenbo YU, Rutong DOU, Pengpeng XIA (2020) Reduction method of torque ripple and vibration and noise of permanent magnet synchronous motor. Micromotors 53(10):11–16

De La Ree J, Boules N (1989) Torque production inpermanent-magnet synchronous motors. IEEE Trans Ind Appl 25(1):107–112CrossRef

10.

Pindoriya RM, Gautam G, Rajpurohit BS (2020) A novel application of pseudorandom-based technique for acoustic noise and vibration reduction of PMSM drive. IEEE Trans Ind Appl 56(5):5511–5522CrossRef

11.

Chen L, Yan Z, Liu X (2013) Control Motor. Xidian Univ. Press, Xian (in Chinese)

12.

Tozune A, Sakamoto M (1995) Characteristics of permanent-magnet type 3-phase stepping motor. In: IAS '95. Conference Record of the 1995 IEEE Industry Applications Conference Thirtieth IAS Annual Meeting, 8–12 October 1995, Orlando, FL, USA

13.

Wang Y, Gu C, Wang Z (1999) Effect on the middle-frequency oscillation in hybrid stepping motors due to harmonic currents. Proc SCEE 19(9):41–45 (in Chinese)

14.

Li Z (2003) Study on driving system of three-phase hybrid stepping motor. In: Sixth international conference on electrical machines and systems, 2003. ICEMS 2003, 9–11 November 2003, Beijing, China

15.

Mizutami K, Hayashi S, Matsui N (1993) Modeling and control of hybrid stepping motors. In: Conference Record of the 1993 IEEE Industry Applications Conference Twenty-Eighth IAS Annual Meeting, 2–8 October 1993, Toronto, Ontario, Canada

16.

Lin S, Jiang Q, Mamun AA (2003) Effect of drive modes on the acoustic noise of fluid dynamic bearing spindle motors. IEEE Trans Magn 39(5):3277–3279CrossRef

17.

Jintanawan T (2002) FDB Spindle motor design for vibration suppression. In: Digest of the Asia-Pacific Magnetic Recording Conference, 27–29 August 2002, Singapore

18.

Bi C, Jiang Q, Lin S, Low TS, Mamun AA (2003) Reduction of acoustic noise in FDB spindle motor by using drive technology. IEEE Trans Magn 39(2):800–805CrossRef

19.

Bi C, Phyu HN, Jiang Q (2009) Unbalanced magnetic pull induced by leading wires of permanent magnet synchronous motor. In: 2009 international conference on electrical machines and systems, 15–18 November 2009, Tokyo, Japan

20.

Huang S, Aydin M, Lipo TA (2001) Electromagnetic vibration and noise assessment for surface mounted PM machines. In: Proceedings of Power Engineering Soc. Summer Meeting, vol 3, pp 1417–1426

21.

Zhu ZQ, Howe D (1993) Electromagnetic noise radiated by brushless permanent magnet DC drives. In: Sixth International Conference on Electrical Machines and Drives, pp 606–611

22.

Vijayraghavan P, Krishnan R (1998) Noise in electric machines: a review. In: Proceedings of 1998 IEEE Ind. Application Conf., vol 1, St. Louis, MO, 12–15 October 1998, pp 251–258

23.

Pindoriya RM, Rajpurohit BS, Kumar R (2020) A novel application of harmonics spread spectrum technique for acoustic noise and vibration reduction of PMSM drive. IEEE Access 8:103273–103284CrossRef

24.

Tang M, Odhano S, Formentini A, Zanchetta P (2020) Reuse of a damaged permanent magnet synchronous motor for torque ripple and acoustic noise elimination using a novel repetitive observer. IEEE Trans Ind Appl 56(4):3790–3798

25.

Tan X (2018) Learn NVH: noise, vibration and harshness. Machine Press, Beijing (in Chinese)

Titel: Reducing acoustic noise of 3-phase hybrid stepper motor with drive mode
verfasst von: Zhen Peng
Chao Bi
Kailun Yao
Lingli Fang
Publikationsdatum: 25.06.2021
Verlag: Springer Berlin Heidelberg
Erschienen in: Electrical Engineering / Ausgabe 2/2022
Print ISSN: 0948-7921
Elektronische ISSN: 1432-0487
DOI: https://doi.org/10.1007/s00202-021-01282-w

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