加速度计
加速度
热的
电子工程
信号调节
领域(数学)
电气工程
CMOS芯片
计算机科学
工程类
机械工程
物理
量子力学
经典力学
操作系统
气象学
功率(物理)
纯数学
数学
作者
Rahul Mukherjee,Joydeep Basu,Pradip Kumar Mandal,Prasanta Kumar Guha
标识
DOI:10.1088/1361-6439/aa964d
摘要
Thermal convection based micro-electromechanical accelerometer is a relatively new kind of acceleration sensor that does not require a solid proof mass, yielding unique benefits like high shock survival rating, low production cost, and integrability with CMOS integrated circuit technology. This article provides a comprehensive survey of the research, development, and current trends in the field of thermal acceleration sensors, with detailed enumeration on the theory, operation, modeling, and numerical simulation of such devices. Different reported varieties and structures of thermal accelerometers have been reviewed highlighting key design, implementation, and performance aspects. Materials and technologies used for fabrication of such sensors have also been discussed. Further, the advantages and challenges for thermal accelerometers vis-\`a-vis other prominent accelerometer types have been presented, followed by an overview of associated signal conditioning circuitry and potential applications.
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