A SiC MEMS Resonant Strain Sensor for Harsh Environment Applications

A SiC MEMS Resonant Strain Sensor for Harsh Environment Applications

In this paper, we present a silicon carbide MEMS resonant strain sensor for harsh environment applications. The sensor is a balanced-mass double-ended tuning fork (BDETF) fabricated from 3C-SiC deposited on a silicon substrate. The SiC was etched in a plasma etch chamber using a silicon oxide mask,...

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Veröffentlicht in:IEEE sensors journal 2007-04, Vol.7 (4), p.568-576
Hauptverfasser: Azevedo, R.G., Jones, D.G., Jog, A.V., Jamshidi, B., Myers, D.R., Li Chen, Xiao-an Fu, Mehregany, M., Wijesundara, M.B.J., Pisano, A.P.
Format: Artikel
Sprache:eng
Schlagworte:
Atmospheric pressure
Atmospheric-pressure plasmas
Capacitive sensors
Carbide
Devices
Etching
extensometer
gauge
harsh environment
MEMS
Micromechanical devices
Plasma applications
Plasma devices
Plasma temperature
Resonance
Resonant frequencies
resonator
Sensors
SiC
silicon
Silicon carbide
Strain
Tuning
Vibrations
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Zusammenfassung:In this paper, we present a silicon carbide MEMS resonant strain sensor for harsh environment applications. The sensor is a balanced-mass double-ended tuning fork (BDETF) fabricated from 3C-SiC deposited on a silicon substrate. The SiC was etched in a plasma etch chamber using a silicon oxide mask, achieving a selectivity of 5:1 and etch rate of 2500 Aring/min. The device resonates at atmospheric pressure and operates from room temperature to above 300degC. The device was also subjected to 10 000 g shock (out-of-plane) without damage or shift in resonant frequency. The BDETF exhibits a strain sensitivity of 66 Hz/muepsiv and achieves a strain resolution of 0.11 muepsiv in a bandwidth from 10 to 20 kHz, comparable to state-of-the-art silicon sensors
ISSN:1530-437X
1558-1748
DOI:10.1109/JSEN.2007.891997