Stiction forces and reduction by dynamic contact in ultra-clean encapsulated MEMS devices

机译：超清洁封装的MEMS器件中的静力和动态接触的减少

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We demonstrate the consistent and manageable nature of surface adhesion and stiction forces in MEMS devices fabricated using the high-temperature epitaxial encapsulation process. In this encapsulation process (commercialized by SiTime), there are no chemical anti-stiction films or getters. Data from more than 2000 test structures with more than 80 design variations from three different fabrication runs were gathered in this study. Surprisingly, the adhesion force is shown to be independent of design geometry. The measured adhesion forces (18-25uN) are small enough for inertial sensors. In addition, we demonstrate anti-stiction bump stops with springs for a sliding contact, which reduce the probability of stiction by over 50%.

机译：我们展示了使用高温外延封装工艺制造的MEMS器件中表面粘附力和静摩擦力的一致性和可控性。在这种封装过程中（由SiTime商业化），没有化学防粘膜或吸气剂。在这项研究中，收集了来自2000种测试结构的数据，这些数据来自三种不同制造过程的80多种设计变化。出人意料的是，显示出粘附力与设计几何形状无关。对于惯性传感器，测得的粘附力（18-25uN）足够小。此外，我们还演示了带有弹簧的抗粘碰止动块，用于滑动接触，可将粘着几率降低50％以上。

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《IEEE International Conference on Micro Electro Mechanical Systems》|2015年|393-396|共4页
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Heinz D.B.; Hong V.A.; Kimbrell T.S.; Stehle J.; Ahn C.H.; Ng E.J.; Yang Y.; Yama G.; OBrien G.J.; Kenny T.W.;
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1. Experimental Investigation Into Stiction Forces and Dynamic Mechanical Anti-Stiction Solutions in Ultra-Clean Encapsulated MEMS Devices [J] . David B. Heinz, Vu A. Hong, Chae Hyuck Ahn, Journal of Microelectromechanical Systems . 2016,第3期

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4. Stiction forces and reduction by dynamic contact in ultra-clean encapsulated MEMS devices [C] . Heinz D.B., Hong V.A., Kimbrell T.S., IEEE International Conference on Micro Electro Mechanical Systems . 2015

机译：超清洁封装MEMS器件中动态接触的静力和减少
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6. Numerical Analysis of Dynamic Effects of a Nonlinear Vibro-Impact Process for Enhancing the Reliability of Contact-Type MEMS Devices [O] . Vytautas Ostasevicius, Rimvydas Gaidys, Rolanas Dauksevicius 2009

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Stiction forces and reduction by dynamic contact in ultra-clean encapsulated MEMS devices

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