Design and Verification of a Structure for Isolating Packaging Stress in SOI MEMS Devices

Yongcun Hao; Weizheng Yuan; Jianbing Xie; Qiang Shen; Honglong Chang

doi:10.1109/JSEN.2016.2646723

Design and Verification of a Structure for Isolating Packaging Stress in SOI MEMS Devices

Yongcun Hao
, Weizheng Yuan
, Jianbing Xie
, Qiang Shen
, Honglong Chang

School of Mechanical Engineering

Northwestern Polytechnical University Xian

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

61 Scopus citations

Abstract

This paper proposes and verifies a structure for the isolation of packaging stress in silicon-on-insulator-based microelectromechanical systems devices. The packaging-stress isolation structure resides on the handle layer and consists of a circular disk, eight elastic beams, and a support frame. The disk is located in the center of the die and occupies less than 5% of the handle-layer area; this can reduce packaging stress and avoid uneven stress distribution. The elastic beams are L-shaped and symmetrically distributed to decouple the deformation from the disk to the frame and suppress the stress evenly. The in-plane and out-of-plane deformation induced by packaging stress was modeled and experimentally measured. The comparison results demonstrate that the packaging stress was successfully isolated.

Original language	English
Article number	7802556
Pages (from-to)	1246-1254
Number of pages	9
Journal	IEEE Sensors Journal
Volume	17
Issue number	5
DOIs	https://doi.org/10.1109/JSEN.2016.2646723
State	Published - 1 Mar 2017

Keywords

MEMS
packaging
Silicon-on-insulator
stress isolation structure

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10.1109/JSEN.2016.2646723

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title = "Design and Verification of a Structure for Isolating Packaging Stress in SOI MEMS Devices",

abstract = "This paper proposes and verifies a structure for the isolation of packaging stress in silicon-on-insulator-based microelectromechanical systems devices. The packaging-stress isolation structure resides on the handle layer and consists of a circular disk, eight elastic beams, and a support frame. The disk is located in the center of the die and occupies less than 5\% of the handle-layer area; this can reduce packaging stress and avoid uneven stress distribution. The elastic beams are L-shaped and symmetrically distributed to decouple the deformation from the disk to the frame and suppress the stress evenly. The in-plane and out-of-plane deformation induced by packaging stress was modeled and experimentally measured. The comparison results demonstrate that the packaging stress was successfully isolated.",

keywords = "MEMS, packaging, Silicon-on-insulator, stress isolation structure",

author = "Yongcun Hao and Weizheng Yuan and Jianbing Xie and Qiang Shen and Honglong Chang",

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AU - Hao, Yongcun

AU - Yuan, Weizheng

AU - Xie, Jianbing

AU - Shen, Qiang

AU - Chang, Honglong

PY - 2017/3/1

Y1 - 2017/3/1

N2 - This paper proposes and verifies a structure for the isolation of packaging stress in silicon-on-insulator-based microelectromechanical systems devices. The packaging-stress isolation structure resides on the handle layer and consists of a circular disk, eight elastic beams, and a support frame. The disk is located in the center of the die and occupies less than 5% of the handle-layer area; this can reduce packaging stress and avoid uneven stress distribution. The elastic beams are L-shaped and symmetrically distributed to decouple the deformation from the disk to the frame and suppress the stress evenly. The in-plane and out-of-plane deformation induced by packaging stress was modeled and experimentally measured. The comparison results demonstrate that the packaging stress was successfully isolated.

AB - This paper proposes and verifies a structure for the isolation of packaging stress in silicon-on-insulator-based microelectromechanical systems devices. The packaging-stress isolation structure resides on the handle layer and consists of a circular disk, eight elastic beams, and a support frame. The disk is located in the center of the die and occupies less than 5% of the handle-layer area; this can reduce packaging stress and avoid uneven stress distribution. The elastic beams are L-shaped and symmetrically distributed to decouple the deformation from the disk to the frame and suppress the stress evenly. The in-plane and out-of-plane deformation induced by packaging stress was modeled and experimentally measured. The comparison results demonstrate that the packaging stress was successfully isolated.

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KW - Silicon-on-insulator

KW - stress isolation structure

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Design and Verification of a Structure for Isolating Packaging Stress in SOI MEMS Devices

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