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2010

Driving Characteristics of a Surface Acoustic Wave Motor using a Flat-Plane Slider

13 years 10 months ago
Driving Characteristics of a Surface Acoustic Wave Motor using a Flat-Plane Slider
We discuss the use of a flat-plane slider for a surface acoustic wave (SAW) motor. For stable driving, the SAW motor requires a silicon slider with many microprojections on its surface. Previously, sliders with no projections on the flat-plane surface could not provide stable drive because of contact electrification occurring due to the low electrical conductivity of the lithium niobate stator. In this paper, we present a flatplane slider that can provide stable drive by using for the stator lithium niobate with conductivity improved by chemical reduction. The flat-plane slider can drive under a higher preload than a slider with projections because the contact area of the flat-plane slider is larger than that of the slider with projections. Thus, the flat-plane slider is expected to obtain a higher output force than the slider with projections. We report herein the results of measurements of the flat-plane slider driving characteristics such as the no-load speed and output force. The ...
Koki Sakano, Minoru Kuribayashi Kurosawa, Takashi
Added 28 Feb 2011
Updated 28 Feb 2011
Type Journal
Year 2010
Where AR
Authors Koki Sakano, Minoru Kuribayashi Kurosawa, Takashi Shigematsu
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