Title :
A 995MHz fundamental nonlinear quartz MEMS oscillator
Author :
Nagele, R.G. ; Moyer, H.P. ; Kirby, D.J. ; Yoon, Yong Soo ; Kubena, R.L. ; Joyce, R.J. ; Brewer, Peter D. ; Chang, D.T.
Author_Institution :
HRL Labs., LLC, Malibu, CA, USA
Abstract :
A quartz resonator operating at 995 MHz in the fundamental mode has been characterized in a closed loop oscillating system under different drive levels to determine its nonlinear behavior and optimum phase noise performance. The best phase noise achieved was -106 dBc/Hz at a 1 kHz offset frequency. The same quartz technology was used to build VCXOs in both the Colpitts and Pierce configurations at several frequencies above 650 MHz. The lowest phase noise level achieved in the Colpitts configuration operating at 705 MHz is -111 dBc/Hz at a 1 kHz offset frequency while a Pierce Oscillator operating at 662 MHz achieved a phase noise of -112.8 dBc/Hz at the same offset. Power consumption in these VCOs is typically on the order of 30-90 mW.
Keywords :
UHF oscillators; UHF resonators; circuit noise; crystal oscillators; crystal resonators; micromechanical resonators; phase noise; voltage-controlled oscillators; Colpitts configuration; Pierce oscillator configuration; VCO; VCXO; closed loop oscillating system; frequency 662 MHz; frequency 705 MHz; frequency 995 MHz; nonlinear quartz MEMS oscillator; optimum phase noise performance; power 30 mW to 90 mW; quartz resonator; Admittance; Current measurement; Phase noise; Resonant frequency; Tuning; Varactors; DLD; Duffing; MEMS; Quartz; drive level dependency; nonlinear dynamics; oscillators; phase noise; resonator;
Conference_Titel :
European Frequency and Time Forum & International Frequency Control Symposium (EFTF/IFC), 2013 Joint
Conference_Location :
Prague
DOI :
10.1109/EFTF-IFC.2013.6702175
