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The design and analysis of a MEMS electrothermal actuator

The design and analysis of a MEMS electrothermal actuator
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摘要 This paper introduces a type of out-of-plane microelectrothermal actuator, which is based on the principle of bimetal film thermal expansion in the fuse. A polymer SU-8 material and nickel are used as the functional and structural materials of the actuator. Through heating the resistance wire using electricity, the actuator produces out-of-plane motion in the perpendicular axial direction of the device and the bias layer contact with the substrate, completing signal output. Using Coventorware software to establish the three-dimensional model, the geometric structure is optimized and the electrothermal capabilities are determined theoretically. From electrothermal ana- lysis, the actuator's displacement is 18 #m and the temperature rises from 300 to 440 K under a voltage of 5 V and the response time is 5 ms. The actuator's displacement is 20μm under a 100000 m/s2 acceleration in the accelerating field. In the coupled field, applying a 3 V voltage, the initial temperature is 300 K, while the acceleration is 50000 m/s2, the driving displacement of the actuator is 23μm, and temperature rises to 400 K. Finally, through checking the stress in different field sources, the maximum stress of the actuator is smaller than the allowable stress of nickel. The results show that the electrothermal actuator has high reliability. This paper introduces a type of out-of-plane microelectrothermal actuator, which is based on the principle of bimetal film thermal expansion in the fuse. A polymer SU-8 material and nickel are used as the functional and structural materials of the actuator. Through heating the resistance wire using electricity, the actuator produces out-of-plane motion in the perpendicular axial direction of the device and the bias layer contact with the substrate, completing signal output. Using Coventorware software to establish the three-dimensional model, the geometric structure is optimized and the electrothermal capabilities are determined theoretically. From electrothermal ana- lysis, the actuator's displacement is 18 #m and the temperature rises from 300 to 440 K under a voltage of 5 V and the response time is 5 ms. The actuator's displacement is 20μm under a 100000 m/s2 acceleration in the accelerating field. In the coupled field, applying a 3 V voltage, the initial temperature is 300 K, while the acceleration is 50000 m/s2, the driving displacement of the actuator is 23μm, and temperature rises to 400 K. Finally, through checking the stress in different field sources, the maximum stress of the actuator is smaller than the allowable stress of nickel. The results show that the electrothermal actuator has high reliability.
出处 《Journal of Semiconductors》 EI CAS CSCD 2015年第4期90-94,共5页 半导体学报(英文版)
关键词 bimetal film electrothermal actuator thermal expansion SU-8 Coventorware stress check bimetal film electrothermal actuator thermal expansion SU-8 Coventorware stress check
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  • 1Seki T, Sakata M, Nakajima T,et al. Thermal buckling actuator for micro relays [ C ]//Transducers' 97,1997 : 1153 - 1157.
  • 2Riethmuller W, Beneeke W. Thermally excited silicon microactuators [J].IEEE Trans, Electron Devices, 1988,35 (6) :758 -763.
  • 3Teng J, Prewett P D. Focused on beam fabrication of thermally actuated bimorph cantilever [ J ]. Sensors, Actuators A, 2005 ( 123, 124) : 608-613.
  • 4Lorenz H, Despont M. SU-8:A low cost negative resist for MEMS[ J]. J Micremech,Microeng,1997(7) :121 -124.
  • 5Lau G K,Duc C T,Goosen J F L,et al. An in-plane thermal unimorph using confined polymers[J]. J Micromech,Microeng,2007 ( 17 ) : 174 -183.
  • 6Liu Chang.微机电系统基础[M].黄庆安,译.北京:机械工业出版社,2007:114.
  • 7李春胜,黄德斌.金属材料手册[M].北京:化学工业出版社,2003:56.
  • 8Becker E W, Ehrfeld W, Munchmeyer D, et al Production of separation nozzle systems for uranium enrichment by a combination of X-ray lithography and galvanoplastics [J]. Naturwissenschaften, 1982, 69:520-523.
  • 9Menz W. LIGA and related technologies for industrial applications [A]. In:Transducers '95: Eighth International Conference on Solid-State Sensors and Actuat [C]. Stockholm. Sweden: 1995. 552-555.
  • 10Madon Marc J.Fundamentals of Microfabrication:the Science of Miniaturization[M].2^nd ed,America:CRC Press,2002.

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