Analysis of liquid-type proof mass under oscillating conditions

Analysis of liquid-type proof mass under oscillating conditions

Abstract In this study, the spring constant of an accelerometer with a liquid-type proof mass was analyzed. Unlike a general solid-type microelectromechanical system accelerometer, the Laplace pressure is considered a restoring force in the analyzed accelerometer. Using a base excitation mathematica...

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Main Authors: Dong-Joon Won, Sangmin Lee, Joonwon Kim
Format: Article
Language:English
Published: SpringerOpen 2020-07-01
Series:Micro and Nano Systems Letters
Subjects:
Liquid metal droplet
Guiding channel
Dynamic situation
Surface modification
Spring constant
Online Access:http://link.springer.com/article/10.1186/s40486-020-00115-y
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spelling doaj-495ff1162c2d42dca9eeab9faa13c2d52020-11-25T02:36:55ZengSpringerOpenMicro and Nano Systems Letters2213-96212020-07-01811710.1186/s40486-020-00115-yAnalysis of liquid-type proof mass under oscillating conditionsDong-Joon Won0Sangmin Lee1Joonwon Kim2Department of Mechanical Engineering, Pohang University of Science and Technology (POSTECH)Division of Mechanical, Automotive and Robot Component Engineering, Dong-Eui UniversityDepartment of Mechanical Engineering, Pohang University of Science and Technology (POSTECH)Abstract In this study, the spring constant of an accelerometer with a liquid-type proof mass was analyzed. Unlike a general solid-type microelectromechanical system accelerometer, the Laplace pressure is considered a restoring force in the analyzed accelerometer. Using a base excitation mathematical model, the sensor output could be estimated for a specific spring constant. Although the estimated sensor output data fit well with the experimental results, the spring constant of the device could also be determined dynamically (for oscillations below 5 Hz). Moreover, the damping constants could be inferred depending on whether sandblasting treatment was performed. Finally, the effects of the oscillation, surface condition, and volume of liquid metal droplets on the spring constant were analyzed.http://link.springer.com/article/10.1186/s40486-020-00115-yLiquid metal dropletGuiding channelDynamic situationSurface modificationSpring constant
collection DOAJ
language English
format Article
sources DOAJ
author Dong-Joon Won
Sangmin Lee
Joonwon Kim
spellingShingle Dong-Joon Won
Sangmin Lee
Joonwon Kim
Analysis of liquid-type proof mass under oscillating conditions
Micro and Nano Systems Letters
Liquid metal droplet
Guiding channel
Dynamic situation
Surface modification
Spring constant
author_facet Dong-Joon Won
Sangmin Lee
Joonwon Kim
author_sort Dong-Joon Won
title Analysis of liquid-type proof mass under oscillating conditions
title_short Analysis of liquid-type proof mass under oscillating conditions
title_full Analysis of liquid-type proof mass under oscillating conditions
title_fullStr Analysis of liquid-type proof mass under oscillating conditions
title_full_unstemmed Analysis of liquid-type proof mass under oscillating conditions
title_sort analysis of liquid-type proof mass under oscillating conditions
publisher SpringerOpen
series Micro and Nano Systems Letters
issn 2213-9621
publishDate 2020-07-01
description Abstract In this study, the spring constant of an accelerometer with a liquid-type proof mass was analyzed. Unlike a general solid-type microelectromechanical system accelerometer, the Laplace pressure is considered a restoring force in the analyzed accelerometer. Using a base excitation mathematical model, the sensor output could be estimated for a specific spring constant. Although the estimated sensor output data fit well with the experimental results, the spring constant of the device could also be determined dynamically (for oscillations below 5 Hz). Moreover, the damping constants could be inferred depending on whether sandblasting treatment was performed. Finally, the effects of the oscillation, surface condition, and volume of liquid metal droplets on the spring constant were analyzed.
topic Liquid metal droplet
Guiding channel
Dynamic situation
Surface modification
Spring constant
url http://link.springer.com/article/10.1186/s40486-020-00115-y
work_keys_str_mv AT dongjoonwon analysisofliquidtypeproofmassunderoscillatingconditions
AT sangminlee analysisofliquidtypeproofmassunderoscillatingconditions
AT joonwonkim analysisofliquidtypeproofmassunderoscillatingconditions
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