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BPN499: HEaTS: Aluminum Nitride Inertial Sensors for Harsh Environments

Project ID BPN499
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Start Date Thu 2009-Jan-29 11:48:56
Last Updated Wed 2013-Aug-14 23:05:04
Abstract Aluminum nitride (AlN) is a promising candidate for an emerging field of sensors that is inaccessible for electrostatic devices. Harsh environment conditions, such as temperatures above 500 deg C, high pressures, or reactive media are detrimental to today's MEMS sensors. Devices based on the inert, high melting point material AlN however can withstand these and even harsher conditions. The piezoelectric properties of the material are preserved to very high temperatures (up to 1000 deg C) and can be used for sensing in accelerometers and both sensing and actuating in gyroscopes. Cutting out the comb fingers of electrostatic devices and replacing them with patterned electrodes directly placed on the structural AlN layer has three distinct advantages. The devices have much lower damping and can easily be operated at atmospheric pressure, the resonance frequencies can be chosen more freely and adjusted for maximal noise rejection, and the shock and temperature sensitivity is reduced. In this project, AlN accelerometers and gyroscopes are fabricated and tested at extreme environmental conditions to explore the potential and limitations of AlN technology for harsh environment inertial sensors.
Status Continuing
Funding Source PCARI
IAB Research Area Physical Sensors & Devices
Researcher(s) Fabian T. Goericke
Advisor(s) Albert P. Pisano
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