多晶硅和纳米晶金刚石结构材料中射频微机械圆盘谐振器的频率容限

IEEE InternationalElectron Devices Meeting, 2005. IEDM Technical Digest. Pub Date : 2005-12-05 DOI:10.1109/IEDM.2005.1609329

Jing Wang, Yuan Xie, C. Nguyen

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引用次数: 7

摘要

通过制造和测量大量(>100)的多晶硅和纳米晶金刚石结构材料器件，对表面微加工微机械1端口盘谐振器的谐振频率的绝对容差和匹配容差进行了统计评估。通过这一分析，在使用大学设备制造的4英寸晶圆上的6个模具上，分别证明了多晶硅的平均谐振频率绝对值和匹配公差分别为450 ppm和343 ppm，金刚石的平均谐振频率绝对值和匹配公差分别为756 ppm和392 ppm。测量的匹配容差足以实现无线通信的射频预选或图像抑制滤波器，其置信区间优于测试芯片的99.7%，而无需进行频率修剪

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Frequency tolerance of RF micromechanical disk resonators in polysilicon and nanocrystalline diamond structural materials

A statistical evaluation of the absolute and matching tolerances of the resonance frequencies of surface-micromachined micromechanical 1-port disk resonators is conducted by fabricating and measuring a large quantity (>100) of devices in both polysilicon and nanocrystalline diamond structural materials. Through this analysis, respective average resonance frequency absolute and matching tolerances of 450 ppm and 343 ppm for polysilicon, and 756 ppm and 392 ppm for diamond, have been demonstrated on a measured set of 6 dies on 4-inch wafers fabricated using university facilities. The measured matching tolerance is sufficient to allow implementation of RF pre-select or image-reject filters for wireless communications with a confidence interval better than 99.7% over tested dies without the need for frequency trimming

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IEEE InternationalElectron Devices Meeting, 2005. IEDM Technical Digest.

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