Design of a Rectangular-Type Voice Coil Actuator for Frame Vibration Compensation

Choi, Yun‐Jaie; Ahn, Dahoon; Gweon, Dae−Gab; Lee, Moon Gu

doi:10.4283/jmag.2016.21.3.348

Cited by 3 publications

(2 citation statements)

References 8 publications

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“…Here, a yoke is attached to the upper and lower sides to concentrate the magnetic flux in the air gap. Figure 1b shows the rectangular type axis-symmetric VCM developed by Choi et al [17], in which four pairs of magnets are arranged in an external yoke, while an internal yoke that is sufficiently thick to prevent magnetic saturation is positioned in the center. Two upper and lower coils are wrapped around the internal yoke.…”

Section: Structure Of Vcmsmentioning

confidence: 99%

“…Zhang and Meng studied a VCM composed of a double-sided magnet pair for a maglev device [11]. Choi et al [17] and Ahn et al [12] proposed a VCM with an axial symmetric rectangular structure that can produce considerable force, studied the optimal design method, and tested its mechanical and electrical characteristics. Lee et al [18] optimized the shape of the permanent magnet and yoke by considering the magnetic saturation effect in order to maximize the force of a VCM with a steel and permanent magnet.…”

Section: Introductionmentioning

confidence: 99%

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Analysis of High Force Voice Coil Motors for Magnetic Levitation

Kim

Ahn

2020

Actuators

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A voice coil motor is a simple and linear electromagnetic actuator. Since it has a non-contact force and very low stiffness, it is widely used for precision positioning devices including magnetic levitation systems. During magnetic levitation, high force of a voice coil motor is required to compensate for the weight of the device and ensure a fast dynamic response. In this paper, two types of voice coil motors were analyzed by their volumetric change. The change of the generated force according to the volumetric change was inspected by finite element simulation models. The enhancement of force was dependent on which type of the voice coil motor is used, which component is enlarged, and which direction is the voice coil motor expands in. Based on the analysis results, two voice coil motors were optimally designed for a magnetic levitation positioning device. As a result of the design, it was confirmed that different types of voice coil motor generate different forces even if they have the same volume. For the two types of voice coil motors, the force differed by up to 40%.

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Section: Structure Of Vcmsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Analysis of High Force Voice Coil Motors for Magnetic Levitation

Kim

Ahn

2020

Actuators

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Design of a Finger-Sized Voice Coil Motor for High-Speed Scanners

Kang¹,

Jeong

Choi

2022

Int. J. Precis. Eng. Manuf.

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Design process of square column-shaped voice coil motor for magnetic levitation stage

Ahn

Kim

Choi

et al. 2020

International Journal of Applied Electromagnetics and Mechanics

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Magnetic levitation is state-of-the-art technology to realize 6 degree of freedom motion stages. The major weakness of magnetic levitation technology is the small force of the actuators, since electromagnetic actuators usually have small force compared to other actuators. Moreover, they always have to be turned on in order to compensate for the weight of the stage. In this paper, voice coil motors, a kind of electromagnetic actuator, are designed for a magnetic levitation stage. Two different types of voice coil motors are mathematically modeled, analyzed and optimized to obtain high force. According to the optimized final designs, the voice coil motors are manufactured and their performances are evaluated. The optimal design results are compared with the finite element simulations and the test results of the manufactured products. Both types of voice coil motors show high force. The results are quantified and compared. Through the design process and the evaluation of the voice coil motors, a practical design guideline for a voice coil motor is suggested.

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Design of a Rectangular-Type Voice Coil Actuator for Frame Vibration Compensation

Cited by 3 publications

References 8 publications

Analysis of High Force Voice Coil Motors for Magnetic Levitation

Analysis of High Force Voice Coil Motors for Magnetic Levitation

Design of a Finger-Sized Voice Coil Motor for High-Speed Scanners

Design process of square column-shaped voice coil motor for magnetic levitation stage

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