Comparison of Cogging Torque Reduction in Permanent Magnet Brushless Machines by Conventional and Herringbone Skewing Techniques

Fei, W.; Zhu, Z. Q.

doi:10.1109/tec.2013.2270871

Cited by 88 publications

(41 citation statements)

References 47 publications

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“…For the stator design, it can be classified into stator slot width optimization [25], stator tooth pairing [26], stator tooth shifting [27], stator tooth notching [11], odd slot number, and stator skewing [28]. For the rotor design, it can be classified into rotor pole width optimization [3], magnet shaping [3,29], magnet pole width optimization [30,31], magnet skewing [1], magnet shifting [8], and magnet segmentation [32,33]. In this paper, the CPM is designed with three phases and six pole pairs.…”

Section: Cogging Torque Reduction Techniques In Pmsmmentioning

confidence: 99%

“…As one of main parasitic parameters in permanent magnet synchronous machines (PMSMs), cogging torque is the main component of torque ripple, which has always been the handicap in the high-performance drive applications [1]. During the last two decades, various kinds of work were conducted on the cogging torque of radial-flux and axial-flux PMSMs [2,3].…”

Section: Introductionmentioning

confidence: 99%

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Techniques for Reduction of the Cogging Torque in Claw Pole Machines with SMC Cores

Liu

Wang

et al. 2017

Energies

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Abstract:As one of the main parasitic parameters in permanent magnet (PM) synchronous machines (PMSMs), cogging torque is the main component of the torque ripple, which has always been the handicap in the high-performance, low-speed drive systems. Over the last two decades, various methods have been proposed to decrease the cogging torque in both radial-flux and axial-flux PMSMs. Among these methods, stator slot skewing, stator tooth notching, PM skewing, PM shifting, and pole pairing are extensively investigated. However, little work has been done on reducing the cogging torque of the claw pole machine (CPM), whose cogging torque cannot be ignored. In this paper, the general methods that have been used to reduce the cogging torque in radial-flux and axial-flux PMSMs are developed and verified in a CPM with a soft magnetic composite (SMC) core. The 3-D finite element method (FEM) is used to calculate the cogging torque and PM flux linkage per turn. By comparing different cogging torque reduction technologies, it can be found that the magnet step skewing and unequal claw pole width are very suitable for CPM.

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Section: Cogging Torque Reduction Techniques In Pmsmmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Techniques for Reduction of the Cogging Torque in Claw Pole Machines with SMC Cores

Liu

Wang

et al. 2017

Energies

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“…Furthermore, the skew factor in (2) modifies the torque ripple magnitude and depends upon the type of skewing is applied to the motor such as continuous, conventional step-skew or herringbone step-skew [15].…”

Section: Torque Ripple Harmonicsmentioning

confidence: 99%

Analytical Prediction of Torque Ripple in Surface-Mounted Permanent Magnet Motors Due to Manufacturing Variations

Ortega

2016

IEEE Trans. Energy Convers.

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In the production of Surface-Mounted Permanent Magnet machines, manufacturing tolerances also contribute to torque ripple. Additional harmonics of low electrical orders are created in the torque spectrum. Slight manufacturing variations develop asymmetry conditions in the rotor as well as in the stator. Finite element models can be used to analyze the magnitude of pulsating torque generated due to these asymmetries. However, due to its random nature, lack of periodicity and symmetry, it is time consuming to study the problem with numerical methods for its uneven geometry that does not allow reduced geometrical models. Moreover, the experimental verification of all possible variations would be very challenging as it would require part dimensioning, part sorting, a large quantity of motor builds and finally testing of all samples. Therefore, in this paper an analytical model is presented to study the effect of such imbalance on the torque ripple. The model shows agreement against finite element models and also with experimental results when predicting torque harmonics that come from asymmetries.

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“…By neglecting axial-coupling effects between the steps and the end effects, the overall cogging torque of the machine with rotor step skewing techniques can be obtained by synthesizing the cogging torque produced by FEA results as shown in expression Eq. (3) [5] …”

Section: Decision Of Design Variablesmentioning

confidence: 99%

“…There is no exception for the BLAC motor employed as the EPS system. Therefore, the cogging torque minimization of the BLAC motor is becoming necessary since its low torque ripple is required in the EPS application.This paper presents the rotor Shape optimization of a 3-step skewing [5] spoke type BLAC motor, which is designed for an electric power steering application. The design specification of the BLAC motor for the EPS application is listed in Table 1, and proto type of the spoke type BLAC motor is illustrated in Fig.…”

Section: Introductionmentioning

confidence: 99%

Optimal rotor shape design of 3-step skew spoke type BLAC motor to reducing cogging torque

Kim

Choi

Lee

et al. 2016

JAE

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Abstract. In electric power steering (EPS), spoke type brushless ac (BLAC) motors offer distinct advantages over other electric motor types in terms of torque smoothness, reliability and efficiency. This paper deals with the shape optimization of spoke type BLAC motor, in order to minimization cogging torque. In this paper examines, 3 step skewing rotor angle, optimizing rotor core edge and rotor overlap length for minimize cogging torque in spoke type BLAC motor. The methods were applied to existing machine designs and their performance was calculated using finite-element analysis (FEA). Prototypes of the machine designs were constructed and experimental results obtained. It is shown that the FEA predicted the cogging torque to be nearly reduce using those method.

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Comparison of Cogging Torque Reduction in Permanent Magnet Brushless Machines by Conventional and Herringbone Skewing Techniques

Cited by 88 publications

References 47 publications

Techniques for Reduction of the Cogging Torque in Claw Pole Machines with SMC Cores

Techniques for Reduction of the Cogging Torque in Claw Pole Machines with SMC Cores

Analytical Prediction of Torque Ripple in Surface-Mounted Permanent Magnet Motors Due to Manufacturing Variations

Optimal rotor shape design of 3-step skew spoke type BLAC motor to reducing cogging torque

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