Y. Yee, M. Park, S. Lee, S. Lee, K. Chun, Y. Kim, D. Cho
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引用次数: 4
摘要
基于CMOS和微加工技术,设计并制作了全数字集成加速度计。该加速度计的传感元件为浮动门控n型mosfet,其气隙与外加加速度成正比,用作栅极绝缘体。这个气隙距离的变化改变了感测MOSFET(金属气隙MOSFET: MAMOS)的漏极电流。电流控制振荡器将漏极电流的变化转换为频率输出。集成了20位同步二进制计数器,实现了频率输出的数字化。开发了2-/spl μ m /m厚多晶硅悬架弹簧的CMOS兼容掺杂退火工艺,优化了机械性能和电气性能之间的平衡。采用略微改进的1.5 /spl mu/m CMOS集成电路工艺,然后进行各向异性硅蚀刻,制成集成硅数字加速度计。
MAMOS-a novel displacement sensitive transducer for fully digital integrated ac accelerometer
A fully digital integrated accelerometer was designed and fabricated based on CMOS and micromachining technologies. The sensing elements of this accelerometer are floating gated n-type MOSFETs with the variable airgap proportional to applied acceleration as gate insulator. The change of this air-gap distance alters the drain current of the sensing MOSFET (metal air-gap MOSFET: MAMOS). Current controlled oscillator converts the change of the drain current of MAMOS to frequency output. Twenty-bit synchronous binary counter is integrated to digitize the frequency output. CMOS compatible doping and annealing process for 2-/spl mu/m-thick polysilicon used as suspension springs is developed to optimize the trade-off between the mechanical properties and the electrical requirements. Through the slightly modified 1.5 /spl mu/m CMOS integrated circuit process followed by anisotropic silicon etch, integrated silicon digital accelerometer was fabricated.
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