Yuji Yokozeki scite author profile

This paper suggests the MEMS air turbine that used for the MEMS electromagnetic induction type generator. In the MEMS air turbine that employed the fluid dynamic bearing system, the gap between the magnet and the magnetic circuit and the eccentric motion of the rotor are problem in the high efficiency and the high output power. The developed MEMS air turbine has miniature silicon structure and the miniature bearing structure. The bearing structure is extended to suppress the eccentric motion and to close the gap between the magnet and the magnetic circuit. The dimension error of the fabricated MEMS air turbine components is less than ± 6 micro meter. Therefore, the microstructure with high-accuracy and high-aspect-ratio can be fabricated by the MEMS process. By forming the guide structure, the assembly error is less than ± 5 micro meter. The combined MEMS air turbine with the ball bearing is achieved, and the dimensions are 4.36 mm, 4.25 mm, and 3.60mm, respectively. Moreover, it is possible to close the distance of the gap by introducing the bearing structure. In the rotational experiment, the rotational motion of the rotor is achieved when the magnetic force applying from the outside of the fabricated turbine. Accordingly, it is possible to realize the rotational structure that is combined with the MEMS silicon components and the ball bearing. In the future work, in order to achieve the rotational motion by the air pressure, the rotational structure will be optimization about the reducing weight of the rotor and the air passage. Keywords-electromagnetic induction type; MEMS air turbine; multilayer ceramic technology; ball bearingI.

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Design of Miniature Electromagnetic Induction Type MEMS Generators With Multilayer Ceramic Circuit

Takato

Endo

Yokozeki

et al. 2015

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This paper discusses the design of a miniature electromagnetic induction type air turbine generator with a multilayer ceramic magnetic circuit. The air turbine is fabricated using a micro electro mechanical systems (MEMS) process, which can form high-accuracy, high-aspect-ratio parts. The magnetic circuit is fabricated using a multilayer ceramic technology that can form a three-dimensional conductor pattern into which a magnetic material can be introduced. By combining these technologies, a miniature generator comprising a miniature magnetic circuit with a helical conductor structure and magnetic core is achieved. In this study, a three-phase and a single-phase generator were fabricated, which produced rotational motion and output waveforms. In this paper, the generators are discussed with respect to the rotational motion and the shape of the magnetic circuit.

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J2230102 Development of MEMS Electromagnetic Device Using Magnetic Ceramic for Magnetic Circuit

Takato

Endo²,

Maezumi³

et al. 2014

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Yuji Yokozeki

Design of electromagnetic induction type MEMS motor with multilayer ceramic three-dimensional coil

Electromagnetic induction type micro generator combined with MEMS air turbine and multilayer ceramic magnetic circuit

Development of electromagnetic induction type MEMS air turbine generator with ball bearing

Design of Miniature Electromagnetic Induction Type MEMS Generators With Multilayer Ceramic Circuit

J2230102 Development of MEMS Electromagnetic Device Using Magnetic Ceramic for Magnetic Circuit

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