Yasuhiro Okamoto scite author profile

We propose a new type of linear actuator that is based on the rapid expansion of a piezoelectric element and the inertia and friction of a mobile body. The proposed actuator, small and capable of being driven with high precision, may find applications in positioning devices and other precision products. This paper presents the theory of operation, the results of tests performed on the experimental unit built on this principle, and a theoretical analysis of these test results. © 1998 Scripta Technica, Electron Comm Jpn Pt 3, 81(11): 11–17, 1998

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High-Power Recessed-Gate AlGaN–GaN HFET With a Field-Modulating Plate

Okamoto

Ando

Nakayama

et al. 2004

IEEE Trans. Electron Devices

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Internal modification of glass by ultrashort laser pulse and its application to microwelding

et al. 2013

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A smooth impact rotation motor using a multi-layered torsional piezoelectric actuator

Morita

Yoshida²,

Okamoto³

et al. 1999

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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A smooth impact rotation motor was fabricated and successfully operated using a torsional piezo actuator. Yoshida et al. reported a linear type smooth impact motor in 1997. This linear motor demonstrated a high output force and a long stroke. A superior feature of the smooth impact drive is a high positioning resolution compared with an impact drive. The positioning resolution of SIDM (smooth impact drive mechanism) is equal to the piezo displacement. The reported positioning resolution of the linear type was 5 nm. Our rotation motor utilized a torsional actuator containing multi-layered piezoelectric material. The torsional actuator was cylindrical in shape with an outer diameter of 15 mm, an inner diameter of 10 mm, and a length of 11 mm. Torsional vibration performance was measured with a laser Doppler vibrometer. The obtained torsional displacement agreed with the calculated values and was sufficient to drive a rotor. The rotor was operated with a saw-shaped input voltage (180 V; 8 kHz). The revolution direction was reversible. The maximum revolution speed was 27 rpm, and the maximum output torque was 56 gfcm. In general, smooth-impact drives do not show high efficiency; however, the level of efficiency of our results (max., 0.045%) could be increased by improving the contact surface material. In addition, we are studying quantitative consideration, for example, about the optimum pre-load or frictional force.

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Three DOF parallel link mechanism utilizing smooth impact drive mechanism

Morita

Yoshida²,

Okamoto³

et al. 2002

Precision Engineering

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