Sage Journals: Discover world-class research

Abstract

Lightly saturated induction machines can improve material utilization. However, the magnetic saturation effect and its axial variation due to skew may lead to high noise levels. In order to improve the calculation accuracy of the magnetic noise, this study proposes an analytical model of the magnetic saturation, which newly introduces the permeance difference to quantify the axial variation. Using the harmonic analysis, the magnetic flux density and electromagnetic force are extracted via Fast Fourier Transform (FFT). The saturation magnetic flux density is nearly sinusoidal at different axial positions of the skewed rotor. The influence of skewed angle on saturation harmonics is discussed based on comparison between two kinds of skewed-rotor motors. Compared with the single-skewed rotor, the dual-skewed rotor with inverted structure hinders the rapid change of saturation harmonics. The validity of saturation model with axial variation is verified through the coupled simulations and noise experiments. The proportion of saturation harmonic is raised with significantly reduced slot harmonics by the dual-skewed rotor. Compared with the regular skewing design, the optimized skewed distance of 0.9 slot pitch achieves the lower noise level in dual-skewed rotor induction machine.

Keywords

Saturation effect skewed rotor magnetic noise induction machine finite element method

Get full access to this article

View all access options for this article.

References

Vijayraghavan

Krishnan

. Noise in electric machines: a review. IEEE Trans Ind Appl 1999; 35: 1007–1013.

Chan

Zhu

, et al. Acoustic noise radiated by PWM-controllel induction machine drives. IEEE Trans Ind Electron 2000; 47: 880–888.

Feng

Yang

Song

. Acoustic noise of induction motor with low-frequency model predictive control. IEEE Access 2020; 8: 178238–178247.

Kroneisl

Šmídl

Peroutka

, et al. Predictive control of IM drive acoustic noise. IEEE Trans Ind Electron 2000; 67: 5666–5676.

Weilharter

Biro

Lang

, et al. Validation of a comprehensive analytic noise computation method for induction machines. IEEE Trans Ind Electron 2012; 59: 2248–2257.

Kim

D-J

Jung

J-W

Hong

J-P

, et al. A study on the design process of noise reduction in induction motors. IEEE Trans Magn 2012; 48: 4638–4464.

Le Besnerais

Lanfranchi

Hecquet

, et al. Characterization and reduction of magnetic noise due to saturation in induction machines. IEEE Trans Magn 2009; 45: 2003–2008.

Zhao

Shao

Fan

. Analytical calculation and low-order component optimization of axial electromagnetic force for an axial flux motor. IEEE Trans Magn 2023; 59: 1–5.

Liang

Chai

, et al. Analytical prediction of magnetic field distribution in spoke-type permanent-magnet synchronous machines accounting for bridge saturation and magnet shape. IEEE Trans Ind Electron 2017; 64: 3479–3488.

10.

Sudhoff

Aliprantis

Kuhn

, et al. An induction machine model for predicting inverter-machine interaction. IEEE Trans Energy Convers 2002; 17: 203–210.

11.

Moreira

Lipo

. Modeling of saturated AC machines including air gap flux harmonic components. IEEE Trans Ind Appl 1992; 28: 343–349.

12.

Dessaint

L-A

Champagne

, et al. Transient modeling of squirrel-cage induction machine considering air-gap flux saturation harmonics. IEEE Trans Ind Electron 2008; 55: 2798–2809.

13.

Roshandel

Mahmoudi

Kahourzade

, et al. Saturation consideration in modeling of the induction machine using subdomain technique to predict performance. IEEE Trans Ind Appl 2022; 58: 261–272.

14.

Nau

. The influence of the skewed rotor slots on the magnetic noise of three-phase induction motors. In: Eighth international conference on electrical machines and drives, 1997, Cambridge, UK, pp.396–399.

15.

Zhou

G-Y

Shen

J-X

. Rotor notching for electromagnetic noise reduction of induction motors. IEEE Trans Ind Appl 2017; 53: 3361–3370.

16.

Haisen

Yilong

Yuhan

, et al. Loss and air-gap force analysis of cage induction motors with non-skewed asymmetrical rotor bars based on FEM. IEEE Trans Magn 2017; 53: 1–4.

17.

Wang

Bao

, et al. Influence on vibration and noise of squirrel-cage induction machine with double skewed rotor for different slot combinations. IEEE Trans Magn 2016; 52: 1–4.

18.

Darjazini

Vahedi

Nobahari

, et al. Analysis of electromagnetic torque for induction motors with a novel non-skewed rotor structure. COMPEL-Int J Comput Math Electric Electron Eng 2022; 41: 238–257.

19.

Wang

Bao

, et al. Analysis of vibration and noise for different skewed slot-type squirrel-cage induction motors. IEEE Trans Magn 2017; 53: 1–6.

20.

Bao

, et al. Optimal angle combination for improving electromagnetic torque in induction motor with double-skewed rotor. IEEE Trans Magn 2017; 53: 1–5.

21.

Yang

. Low-Noise electrical motors. Oxford, U.K.: Clarendon, 1981.

22.

Timar

. Noise and vibration of electrical machines. New York: Elsever, 1989.

23.

Barros

Ebrahimi

Schwarz

, et al. Graphical root cause analysis of magnetically induced vibrations in synchronous machines. IEEE Trans Magn 2024; 60: 1–5.

24.

Fang

Zhang

. Vibroacoustic characterization of a permanent magnet synchronous motor powertrain for electric vehicles. IEEE Trans Energy Convers 2018; 33: 272–280.

25.

Versaci

Angiulli

Fattorusso

, et al. Galerkin-FEM approach for dynamic recovering of the plate profile in electrostatic MEMS with fringing field. COMPEL-Int J Comput Math Electric Electron Eng 2024; 43: 744–770.

26.

Biro

Valli

. The coulomb gauged vector potential formulation for the eddy-current problem in general geometry: well-posedness and numerical approximation. Comput Methods Appl Mech Eng 2007; 196: 1890–1904.

27.

Weilharter

Bíró

Rainer

, et al. Computation of rotating force waves in skewed induction machines using multi-slice models. IEEE Trans Magn 2011; 47: 1046–1049.

28.

Wang

Bao

, et al. Analysis of synchronous parasitic torque in dual skew cage rotor induction motors with equivalent slot number. IET Electr Power Appl 2017; 11: 1357–1365.

Influence of axial variation of magnetic saturation on magnetic noise in induction machines with dual skewed rotor

Abstract

Keywords

Get full access to this article

References