Title :
Performance Verification of Injection Locked STW Clocks with BAW Crystal Stability
Author :
Avramov, I.D. ; Columbus, J.
Author_Institution :
Inst. of Solid State Phys., Sofia
fDate :
May 29 2007-June 1 2007
Abstract :
This work verifies the expected phase noise and medium-term stability improvement of recently proposed 1 GHz surface transverse wave (STW) injection locked clocks operating on 1.25 V supply voltage with bulk acoustic wave (BAW) crystal stability. Compared to a free running STW oscillator, temperature stability improvement by a factor of 16 and close-in phase noise reduction by 18 to 25 dB is demonstrated. A high-power version of the system consumes 90 mA of DC current, generates 4 dBm of output power at 1 GHz and provides a thermal noise floor of -174 dBc/Hz. A low-power version demonstrates safe lock and integrated r.m.s. jitter of 220 to 640 fs over a (0 to +85)degC temperature range. Data on phase noise, output power and frequency sensitivities to supply voltage variations over temperature are provided and discussed. Ways for potential improvement of system performance are suggested.
Keywords :
bulk acoustic wave devices; clocks; injection locked oscillators; jitter; stability; surface acoustic wave oscillators; BAW crystal stability; bulk acoustic wave; comb spectrum oscillators; current 90 mA; frequency 1 GHz; injection locked STW clocks; integrated r.m.s. jitter; phase noise; surface transverse wave; temperature stability; voltage 1.25 V; Acoustic waves; Clocks; DC generators; Injection-locked oscillators; Phase noise; Power generation; Stability; Surface acoustic waves; Temperature sensors; Voltage; BAW crystals; STW resonators; comb spectrum oscillators; injection locked oscillators; phase noise;
Conference_Titel :
Frequency Control Symposium, 2007 Joint with the 21st European Frequency and Time Forum. IEEE International
Conference_Location :
Geneva
Print_ISBN :
978-1-4244-0646-3
Electronic_ISBN :
1075-6787
DOI :
10.1109/FREQ.2007.4319180
