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Output Drifting of Vacuum Packaged MEMS Sensors Due to Room Temperature Helium Exposure

Output Drifting of Vacuum Packaged MEMS Sensors Due to Room Temperature Helium Exposure
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摘要 Exposure of absolute pressure sensors, resonant microtube density, binary concentration sensors and chip-scale vacuum packaged pirani gauges to room temperature helium resulted in a gradual drift in sensor output. No effect was found for differential pressure sensors and pirani gauges vacuum packaged with ceramic or metal packages. The observed results apply to other vacuum packaged MEMS devices such as gyroscopes, voltage controlled oscillators, infrared and Coriolis mass flow sensors. Potential causes for this loss of hermeticity are discussed as well as application limitations for MEMS sensors. Exposure of absolute pressure sensors, resonant microtube density, binary concentration sensors and chip-scale vacuum packaged pirani gauges to room temperature helium resulted in a gradual drift in sensor output. No effect was found for differential pressure sensors and pirani gauges vacuum packaged with ceramic or metal packages. The observed results apply to other vacuum packaged MEMS devices such as gyroscopes, voltage controlled oscillators, infrared and Coriolis mass flow sensors. Potential causes for this loss of hermeticity are discussed as well as application limitations for MEMS sensors.
作者 Douglas Sparks Jay Mitchell Sangwoo Lee
机构地区 ePack Inc. Hanking Group Ltd.
出处 《Journal of Sensor Technology》 2013年第4期101-109,共9页 传感技术(英文)
关键词 MEMS HELIUM RESONATOR Pressure Sensor Pirani GAUGE MEMS Helium Resonator Pressure Sensor Pirani Gauge
分类号 R73 [医药卫生—肿瘤]
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Journal of Sensor Technology
2013年 第4期

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