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Microsystem Technologies
Erschienen in: Microsystem Technologies 11/2015

01.11.2015 | Technical Paper

Design of a large displacement thermal actuator with a cascaded V-beam amplification for MEMS safety-and-arming devices

verfasst von: Xiuyuan Li, Yulong Zhao, Tengjiang Hu, Wenju Xu, You Zhao, Yingwei Bai, Wei Ren

Erschienen in: Microsystem Technologies | Ausgabe 11/2015

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Abstract

The design, fabrication and characterization of a large displacement thermal actuator with a cascaded V-beam amplification for MEMS safety-and-arming (SA) devices are presented. The device is comprised of two V-shape electrothermal actuators, a cascaded V-beam amplification and two mechanical sliders. Compared with conventional lever amplifications, the vertical anti-acceleration stiffness of V-beam amplifications is much larger, which can meet the need of high-acceleration weapons. The special design of two symmetric mechanical sliders can double the displacement to ensure the MEMS SA device in armed state. The whole device is fabricated on a SOI wafer and fabrication process is introduced. Under an applied voltage of 15 V, the displacement of the device is 231.78 μm with consuming power of 5.10 W and response time of 16 ms. The chip size of the actuator is about 4 mm × 5 mm × 0.5 mm. The proposed actuator possesses outstanding performance in miniaturization, low cost and easy integration with other parts of MEMS SA devices.
Vorheriger Artikel DNA immobilization on high aspect ratio glassy carbon (GC-MEMS) microelectrodes for bionanoelectronics applications
Nächster Artikel A mixed approach for studying size effects and connecting interactions of planar nano structures as resonant mass sensors

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Literatur
Deutschinger A, Schmid U, Schneider M, Brenner W, Wanzenböck H, Volland B, Ivanov T, Rangelow I (2010) Characterization of an electro-thermal micro gripper and tip sharpening using FIB technique. Microsyst Technol 16(11):1901–1908CrossRef
Enikov ET, Kedar SS, Lazarov KV (2005) Analytical Model for Analysis and Design of V-shaped thermmal microactuators. J Microelectromech Syst 14(4):788–798CrossRef
Fan L, Last H, Wood R, Dudley B, Khan MC, Ling Z (1998) SLIGA Based underwater weapon safety and arming system. Microsyst Technol 4(4):168–171CrossRef
Gianchandani YB, Najafi K (1996) Bent-beam strain sensors. J Microelectromech Syst 5(1):52–58CrossRef
Hélène P, Carole R, Marjorie S, Fabrice M, Xavier D, Samuel C, Ludovic S, Véronique C (2010) Integration of a MEMS based safe arm and fire device. Sens Actuators A 159(1):157–167
Hill D, Szyszkowski W, Bordatchev E (2006) On modeling and computer simulation of an electro-thermally driven cascaded nickel micro-actuator. Sens Actuators A 126(1):253–263CrossRef
Khawar A, Seyedhamidreza A, Zayd CL (2012) Design and characterization of a low temperature gradient and large displacement thermal actuators for in situ mechanical testing of nanoscale materials. J Micromech Microeng 22(1):1–12
Khazaai JJ, Haris M, Qu H (2010) Displacment amplification and latching mechanism using V-shape actuators in design of electro-thermal MEMS switches. Proc IEEE Conf Sens 27:1454–1459
Lai Y, Bordatchev Evgueni V, Nikumb Suwas K, Hsu Wensyang (2006) Performance characterization of in-plane electro-thermally driven linear microactuators. J Intell Mater Syst Struct 17(1):919–929CrossRef
Long Q, Jae-Sung P, Gianchandani YB (2001) Bent-beam electrothermal actuators-part I: single beam and cascaded devices. J Microelectromech Syst 10(2):247–254CrossRef
Maloney JM, Schreiber DS, DeVoe DL (2004) Large-force electrothermal linear micromotors. J Micromech Microeng 14(2):226–234CrossRef
Maurer WH, Soto GH, Hollingsworth DR (2006) MEMS safe arm device for microdetonation. US Patent 7040234 B1, 9 May
Pennarun P, Rossi C, Esteve D, Conedera V (2005) Development of MEMS based safe electro-thermal pyrotechnic igniter for a new generation of microfuze. Proc SPIE 5836:558–569CrossRef
Pustan M, Rochus V, Golinval JC (2012) Mechanical and tribological characterization of a thermally actuated MEMS cantilever. Microsyst Technol 18(3):247–256CrossRef
Robinson CH, Wood RH, Hoang TQ (2005) Miniature MEMS-based electro-mechanical safety and arming device. US Patent 6964231 B1, 15 Nov
Yang Y-S, Lin Y-H, Hu Y-C, Liu C-H (2009) A large-displacement thermal actuator designed for MEMS pitch-tunable grating. J Micromech Microeng 19(1):1–12CrossRef
Zunino IJL, Skelton DR, Robinson C (2008) Reliability testing and analysis of safing and arming devices for army fuzes. Proc SPIE 6884:0C1–0C12
Metadaten
Titel
Design of a large displacement thermal actuator with a cascaded V-beam amplification for MEMS safety-and-arming devices
verfasst von
Xiuyuan Li
Yulong Zhao
Tengjiang Hu
Wenju Xu
You Zhao
Yingwei Bai
Wei Ren
Publikationsdatum
01.11.2015
Verlag
Springer Berlin Heidelberg
Erschienen in
Microsystem Technologies / Ausgabe 11/2015
Print ISSN: 0946-7076
Elektronische ISSN: 1432-1858
DOI
https://doi.org/10.1007/s00542-015-2447-1

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