Design and Vibration Optimization of Direct Current Motor of Permanent Magnet of Rectangular Magnetic Steel

Hu, Kai; Zhang, Guangming

doi:10.1109/access.2020.3008214

Cited by 4 publications

(3 citation statements)

References 21 publications

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“…To improve the competitiveness of products, the performance volume ratio of motors attracts more attention. However, the improvement of the motor performance volume ratio will increase the electrical and magnetic load [1][2] . It will further increase the saturation of the core [3] .…”

Section: Introductionmentioning

confidence: 99%

Vibration Analysis and Optimization of Permanent Magnet Motor Based on Mode Programme Method

Hu,

Zhang,

Zhang

2023

J. Phys.: Conf. Ser.

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Aiming at optimizing the vibration of the permanent magnet motor, the vibration performance of the permanent magnet motor was analyzed and optimized based on the mode program in this paper. A new kind of permanent magnet motor was designed. The radial electromagnetic force is larger under 256.8 Hz and does not exceed 7.1 kPa at frequencies above 577.8 Hz. Then the mode program by response surface method was conducted and its goal was to make the first-order inherent frequency greater than 577.8 Hz. The inner diameter, outer diameter, and length of the motor housing are selected as optimization factors. The first-order and the second-order inherent frequency of the designed permanent magnet motor housing are used as the optimization objectives. The average error rate of the regression equations of the first and second-order inherent frequency is only 0.76% and 0.88%, respectively. At last, the optimal scheme was put forward. The inner diameter, outer diameter, and length of the motor housing are 115.0 mm, 140.8 mm, and 160.0 mm are the optimal solution. The optimized first and second-order inherent frequency is 605.43 Hz and 1490.3 Hz, respectively. It is effective to weaken vibration and avoid resonance.

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Section: Introductionmentioning

confidence: 99%

Vibration Analysis and Optimization of Permanent Magnet Motor Based on Mode Programme Method

Hu,

Zhang,

Zhang

2023

J. Phys.: Conf. Ser.

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“…All the template-based software uses analytical approaches and are capable of generating results in a short period of time. The outcome result can be used as a pre-assessment report for the application requirement and to establish an early level of confidence in electrical motor sizing and configuration [15]- [17]. The generated model from template-based software can be assessed using a finite element analysis (FEA) solver in 2D or 3D dimension for further analysis, but there are limitations when it comes to complex or unique design geometry conditions [18], [19].…”

Section: Introductionmentioning

confidence: 99%

Determination of performance characteristics using FEA-analytical for outer rotor BLDC motor

Kamaroszaman,

Othman,

Karim

et al. 2023

IJPEDS

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This paper presents an analytical approach to determine the performance characteristics of an outer rotor Brushless DC (BLDC) motor using finite element analysis (FEA). An accurate performance characteristic is a crucial deliverable during the early motor design process in order to minimize the cost of change while delivering a feasible design to the application. There are several popular methods to determine motor performance, including template-based software as well as FEA. However, these two methods have limitations in terms of geometry and time. Therefore, this paper proposes that the limitations can be addressed by using a combination of FEA and mathematical equations. First, the optimum motor design is determined using an FEA analytical approach. Second, the torque constant <em>K</em><sub>T</sub>, is derived from the FEA results and followed by performance curve generation using the mathematical equation of speed, current, and output power in terms of torque function. Finally, the outcome results are verified against the motor requirements, including an assessment of maximum speed, stall current, and maximum output power. In conclusion, this research introduces a methodology for determining full curve motor performance prior to prototype fabrication. The leverage benefit could be gained through robust design and low-cost development.

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“…the following of the paper it is worth noticing that |𝐽 𝑛,𝜅 𝑚 | 2 does not depend on 𝑚. In fact, from (48) and considering(9) we can write:…”

mentioning

confidence: 99%

Simple and Accurate Computation of Rotor Eddy-Current Losses in Surface-Mounted Permanent Magnet Machines Accounting for Magnet Circumferential Segmentation

Ciriani,

Khan,

Mansour

et al. 2024

IEEE Access

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Extensive literature has been produced on the investigation of eddy current losses in Surfacemounted Permanent Magnet (SPM) electric machines in presence of circumferential segmentation by analytical solution of two-dimensional (2D) models. What is missing in the present literature and constitutes the aim of this paper is a simple but accurate procedure enabling the designer to quickly and easily estimate the impact of circumferential segmentation on permanent-magnet loss reduction. The problem is hereinafter addressed in two stages: first the Helmholtz equation is solved in the permanent magnet region neglecting segmentation; then suitable gauge fixing terms are added to the vector potential and eddy current field solutions to account for segmentation. Unlike existing approaches, the method leads to manageable formulas whose accuracy is extensively assessed against finite element simulations on an example SPM machine equipped with a fractional-slot concentrated winding. Furthermore, simple practical rules are derived and validated regarding the impact of magnet segmentation on permanent-magnet losses caused by air-gap magnetic field space harmonics of different orders. INDEX TERMSEddy currents, Electric machines, Losses, Permanent magnets, SPM machines. NOMENCLATURE CESARE CIRIANI received his Laurea degree in Electrical Engineering and his Ph.D. degree in Industrial and Information Engineering from the

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Design and Vibration Optimization of Direct Current Motor of Permanent Magnet of Rectangular Magnetic Steel

Cited by 4 publications

References 21 publications

Vibration Analysis and Optimization of Permanent Magnet Motor Based on Mode Programme Method

Vibration Analysis and Optimization of Permanent Magnet Motor Based on Mode Programme Method

Determination of performance characteristics using FEA-analytical for outer rotor BLDC motor

Simple and Accurate Computation of Rotor Eddy-Current Losses in Surface-Mounted Permanent Magnet Machines Accounting for Magnet Circumferential Segmentation

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