Encapsulated submillimeter piezoresistive accelerometers

Woo Tae Park; Aaron Partridge; Rob N. Candler; Vipin Ayanoor-Vitikkate; Gary Yama; Markus Lutz; Thomas W. Kenny

doi:10.1109/JMEMS.2006.876648

Encapsulated submillimeter piezoresistive accelerometers

Woo Tae Park, Aaron Partridge, Rob N. Candler, Vipin Ayanoor-Vitikkate, Gary Yama, Markus Lutz, Thomas W. Kenny

Dept. of Mechanical & Automotive Engineering

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

39 Scopus citations

Abstract

While micromachined accelerometers are widely available and used in various applications, some biomedical applications require extremely small dimensions (>mm) or mass (>mg) that cannot be fulfilled with commercially available accelerometers. In this work, we present a fully packaged piezoresistive accelerometer that has the smallest dimension (0.034 mm³) ever published. We achieve miniaturization by using a film encapsulation technique with a thick epitaxial polysilicon layer. This packaging technique enables the dimensions of the die to be only tens of microns larger than the micromechanical structure. We have fabricated accelerometers as small as 0.034 mm³ (387μm × 387 μm × 230 μm) with 0.25 mg/√Hz. These ultra-miniature motion sensors have potential opening up new frontiers in biomedical science and engineering.

Original language	English
Pages (from-to)	507-514
Number of pages	8
Journal	Journal of Microelectromechanical Systems
Volume	15
Issue number	3
DOIs	https://doi.org/10.1109/JMEMS.2006.876648
State	Published - Jun 2006

Keywords

Accelerometer
Piezoresistive
Ultraminiature sensors
Wafer level packaging

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10.1109/JMEMS.2006.876648

Cite this

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title = "Encapsulated submillimeter piezoresistive accelerometers",

abstract = "While micromachined accelerometers are widely available and used in various applications, some biomedical applications require extremely small dimensions (>mm) or mass (>mg) that cannot be fulfilled with commercially available accelerometers. In this work, we present a fully packaged piezoresistive accelerometer that has the smallest dimension (0.034 mm3) ever published. We achieve miniaturization by using a film encapsulation technique with a thick epitaxial polysilicon layer. This packaging technique enables the dimensions of the die to be only tens of microns larger than the micromechanical structure. We have fabricated accelerometers as small as 0.034 mm3 (387μm × 387 μm × 230 μm) with 0.25 mg/√Hz. These ultra-miniature motion sensors have potential opening up new frontiers in biomedical science and engineering.",

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T1 - Encapsulated submillimeter piezoresistive accelerometers

AU - Park, Woo Tae

AU - Partridge, Aaron

AU - Candler, Rob N.

AU - Ayanoor-Vitikkate, Vipin

AU - Yama, Gary

AU - Lutz, Markus

AU - Kenny, Thomas W.

PY - 2006/6

Y1 - 2006/6

N2 - While micromachined accelerometers are widely available and used in various applications, some biomedical applications require extremely small dimensions (>mm) or mass (>mg) that cannot be fulfilled with commercially available accelerometers. In this work, we present a fully packaged piezoresistive accelerometer that has the smallest dimension (0.034 mm3) ever published. We achieve miniaturization by using a film encapsulation technique with a thick epitaxial polysilicon layer. This packaging technique enables the dimensions of the die to be only tens of microns larger than the micromechanical structure. We have fabricated accelerometers as small as 0.034 mm3 (387μm × 387 μm × 230 μm) with 0.25 mg/√Hz. These ultra-miniature motion sensors have potential opening up new frontiers in biomedical science and engineering.

AB - While micromachined accelerometers are widely available and used in various applications, some biomedical applications require extremely small dimensions (>mm) or mass (>mg) that cannot be fulfilled with commercially available accelerometers. In this work, we present a fully packaged piezoresistive accelerometer that has the smallest dimension (0.034 mm3) ever published. We achieve miniaturization by using a film encapsulation technique with a thick epitaxial polysilicon layer. This packaging technique enables the dimensions of the die to be only tens of microns larger than the micromechanical structure. We have fabricated accelerometers as small as 0.034 mm3 (387μm × 387 μm × 230 μm) with 0.25 mg/√Hz. These ultra-miniature motion sensors have potential opening up new frontiers in biomedical science and engineering.

KW - Accelerometer

KW - Piezoresistive

KW - Ultraminiature sensors

KW - Wafer level packaging

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DO - 10.1109/JMEMS.2006.876648

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Encapsulated submillimeter piezoresistive accelerometers

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Keywords

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