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电容式高过载微机械加速度计的设计与实验 被引量:11

Design and experiment of high-overload capacitive micro-machined accelerometers
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摘要 针对某些高过载应用场合对微机械加速度计抗冲击能力的要求,设计了一种三轴向抗冲击的梳齿电容式闭环微机械加速度计。通过分析带止档的闭环加速度计冲击响应过程,提出在敏感方向使用悬臂梳齿结构作为柔性缓冲止档可以缓冲冲击过程中微结构间的接触碰撞;在非敏感方向采用结构模态和阻尼分离的设计可减小冲击变形,耗散冲击能量。马歇特锤冲击实验表明,该加速度计能够分别承受3个轴向幅值为13 200g,脉宽约102μs的的加速度冲击,冲击前后偏置漂移在5mV以内。该闭环加速度计在±10g的非线性优于500×10-6,1.5h偏置稳定性为0.27mg。设计的样机基本满足高过载环境下惯性测量的要求。 In consideration of the requirements of micro-machined accelerometers for enduring shock pulses in some special high-overload applications,a comb-finger capacitive closed-loop accelerometer with triaxial shock resistance was proposed.After analysis of the shock response of the closed-loop accelerometer with a stop,it points out that the flexible comb stop designed in the sensitive direction can reduce the impact force among the micro-structures and the modal separation and damping in the insensitive direction to strengthen the shock resistance in y and z axes can reduce the deformation and dissipate the shock energy.An impact hammer test demonstrates that the accelerometer can resist the acceleration shocks by 13,200g,and 102 μs respectively,and the bias drifts is less than 5 mV after shock.A prototype was designed and its nonlinearity is less than 500 × 10-6 in a full scale of ± 10g,its bias stability is 0.27 mg for 1.5 h.The prototype can basically meet the demands of inertial measurements under high overload conditions.
作者 陶永康 刘云峰 董景新
机构地区 清华大学精密仪器系
出处 《光学精密工程》 EI CAS CSCD 北大核心 2014年第4期918-925,共8页 Optics and Precision Engineering
基金 国家十二五预研基金资助项目(No.51309020301)
关键词 微机械加速度计 闭环加速度计 三轴向高过载 柔性止档 马歇特锤实验 micro-machined accelerometer closed-loop accelerometer triaxial high overload flexible stop impact hammer test
分类号 TH824.4 [机械工程—精密仪器及机械] U666.1 [交通运输工程—船舶及航道工程]
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  • 1TSUNG L C,CHEN H C,CHUN T L,et al..Sensitivity analysis of packaging effect of silicon-based piezoresistive pressure sensor[J].Sensors and Actuators A: Physical,2009,152(1): 29-38.
  • 2LIN H,STEVENSON J T M,GUNDLACH A M,et al..Direct Al-Al contact using low temperature wafer bonding for integrating MEMS and CMOS devices[J].Microelectronic Engineering,2008,85(5-6):1059-1061.
  • 3YOZO K,AKIO Y.Optimum design considerations for silicon piezoresistive pressure sensors[J].Sensors and Actuators A: Physical,1997,62:539-542.
  • 4LIN L W,HUEY C C,YEN W L.A Simulation Program for the Sensitivity and Linearity of Piezoresistive Pressure Sensors[J].Journal of Micro Electromechanical Systems,1999,8(4):514-522.
  • 5HERMANN S,KARL K.A square-diaphragm piezoresistive pressure sensor with a rectangular central boss for low-pressure ranges[J].IEEE Transactions on Electron Devices,1993,40(10):1754-1759.
  • 6ALVIN B,WOO T P,JOSEPH R M,et al..Review: semiconductor piezoresistance for microsystems[J].Proceedings of the IEEE,2009,97(3):513-552.
  • 7修显武.扩嫁基区晶体管负阻效应的研究.山东:山东师范大学,2003.
  • 8ROCKSTAD H K, TANG T K, REYNOLDS. A miniature, high-sensitivity, electron tunneling accelerometer[J].Sensors and Actuators, 1996,53:227-231.
  • 9BURNS D W, HORNING R D, HERB W R, et al. Sealed-cavity resonant mierobeam accelerometer[J]. Sensors and Actuators, 1996, A53: 249-255.
  • 10SPINEANU A, BENABES P, KIELBASA R. A piezoelectric accelerometer with sigma-delta servo technique[J].Sensors and Actuators, 1997,A60,127-133.

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光学精密工程
2014年 第4期

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