UHF quartz MEMS oscillators for dynamics-based system enhancements
European Frequency and Time Forum & International Frequency Control Symposium(2013)
摘要
Processes for fabricating full wafers of UHF quartz MEMS oscillators bonded to Si have been developed at HRL over the past several years. These devices have shown state-of-the-art noise and stability along with extremely small vacuum packaged die size of less than 3 mm. An interesting by-product of the high frequency, small size, and wafer-scale fabrication of these devices is that several novel dynamics-based enhancements can be considered. These include the use of nonlinear dynamics for reducing oscillator phase noise at CMOS capable voltages and co-integration with more complex structures for sensing vibration and serving as a local timing reference for reducing thermally-induced sensor drifts. Several of these novel concepts made possible by wafer-scale MEMS-based processing will be reviewed.
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关键词
cmos analogue integrated circuits,uhf oscillators,crystal oscillators,microsensors,phase noise,vibration measurement,wafer-scale integration,cmos,uhf quartz mems oscillators,dynamics-based system enhancements,local timing reference,nonlinear dynamics,oscillator phase noise reduction,thermally-induced sensor drifts,vibration sensing,wafer-scale mems-based processing,quartz mems,si disk resonator gyro,duffing,force rebalance,frequency locking,nonlinear operation,ovenization,vibration compensation,resonant frequency,mathematical model,silicon,admittance
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