A capacitive mems inclinometer sensor with wide dynamic range and improved sensitivity

Hanyang Xu; Yulong Zhao; Kai Zhang; Kyle Jiang

doi:10.3390/s20133711

A capacitive mems inclinometer sensor with wide dynamic range and improved sensitivity

Hanyang Xu
, Yulong Zhao
, Kai Zhang
, Kyle Jiang

School of Mechanical Engineering

Xi'an Jiaotong University
University of Birmingham

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

This paper proposes a novel capacitive liquid metal microelectromechanical system (MEMS) inclinometer sensor and introduces its design, fabrication, and signal measurement. The sensor was constructed using three-layer substrates. A conductive liquid droplet was rolled along an annular groove of the intermediate substrate to reflect angular displacement, and capacitors were used to detect the position of the droplet. The numerical simulation work provides the working principle and structural design of the sensor, and the fabrication process of the sensor was proposed. Furthermore, the static capacitance test and the dynamic signal test were designed. The sensor had a wide measurement range from ±2.12^◦ to ±360^◦, and the resolution of the sensor was 0.4^◦ . This sensor further expands the measurement range of the previous liquid droplet MEMS inclinometer sensors.

Original language	English
Article number	3711
Pages (from-to)	1-16
Number of pages	16
Journal	Sensors (Switzerland)
Volume	20
Issue number	13
DOIs	https://doi.org/10.3390/s20133711
State	Published - 1 Jul 2020

Keywords

Arraycapacitor
LiquidMEMS inclinometer sensor
Super-hydrophobic
Wide measurement range

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10.3390/s20133711

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title = "A capacitive mems inclinometer sensor with wide dynamic range and improved sensitivity",

abstract = "This paper proposes a novel capacitive liquid metal microelectromechanical system (MEMS) inclinometer sensor and introduces its design, fabrication, and signal measurement. The sensor was constructed using three-layer substrates. A conductive liquid droplet was rolled along an annular groove of the intermediate substrate to reflect angular displacement, and capacitors were used to detect the position of the droplet. The numerical simulation work provides the working principle and structural design of the sensor, and the fabrication process of the sensor was proposed. Furthermore, the static capacitance test and the dynamic signal test were designed. The sensor had a wide measurement range from ±2.12◦ to ±360◦, and the resolution of the sensor was 0.4◦ . This sensor further expands the measurement range of the previous liquid droplet MEMS inclinometer sensors.",

keywords = "Arraycapacitor, LiquidMEMS inclinometer sensor, Super-hydrophobic, Wide measurement range",

author = "Hanyang Xu and Yulong Zhao and Kai Zhang and Kyle Jiang",

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AU - Xu, Hanyang

AU - Zhao, Yulong

AU - Zhang, Kai

AU - Jiang, Kyle

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Y1 - 2020/7/1

N2 - This paper proposes a novel capacitive liquid metal microelectromechanical system (MEMS) inclinometer sensor and introduces its design, fabrication, and signal measurement. The sensor was constructed using three-layer substrates. A conductive liquid droplet was rolled along an annular groove of the intermediate substrate to reflect angular displacement, and capacitors were used to detect the position of the droplet. The numerical simulation work provides the working principle and structural design of the sensor, and the fabrication process of the sensor was proposed. Furthermore, the static capacitance test and the dynamic signal test were designed. The sensor had a wide measurement range from ±2.12◦ to ±360◦, and the resolution of the sensor was 0.4◦ . This sensor further expands the measurement range of the previous liquid droplet MEMS inclinometer sensors.

AB - This paper proposes a novel capacitive liquid metal microelectromechanical system (MEMS) inclinometer sensor and introduces its design, fabrication, and signal measurement. The sensor was constructed using three-layer substrates. A conductive liquid droplet was rolled along an annular groove of the intermediate substrate to reflect angular displacement, and capacitors were used to detect the position of the droplet. The numerical simulation work provides the working principle and structural design of the sensor, and the fabrication process of the sensor was proposed. Furthermore, the static capacitance test and the dynamic signal test were designed. The sensor had a wide measurement range from ±2.12◦ to ±360◦, and the resolution of the sensor was 0.4◦ . This sensor further expands the measurement range of the previous liquid droplet MEMS inclinometer sensors.

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KW - LiquidMEMS inclinometer sensor

KW - Super-hydrophobic

KW - Wide measurement range

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A capacitive mems inclinometer sensor with wide dynamic range and improved sensitivity

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Keywords

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