Extremely low phase noise UHF oscillators utilizing high-overtone, bulk-acoustic resonators

High-overtone, bulk acoustic resonators (HBAR) have been designed that exhibit 9-dB insertion loss and loaded Q values of 80000 at 640 MHz with out-of-phase resonances occurring every 2.5 MHz. These resonators have been used as ovenized frequency-control elements in very low phase noise oscillators. The oscillator sustaining stage circuitry incorporates low-1/f noise modular RF amplifiers, Schottky-diode ALC, and a miniature 2-pole helical filter for suppression of HBAR adjacent resonant responses. Measurement of oscillator output signal flicker-of-frequency noise confirms that state-of-the-art levels of short-term frequency stability have been obtained. Sustaining stage circuit contribution to resulting oscillator flicker-of-frequency noise is 7-10 dB below that due to the resonators themselves. At 16-dBm resonator drive, an oscillator output signal white phase noise floor level of -175 dBc/Hz is achieved.<<ETX>>

[1]  B. R. Mcavoy,et al.  Shear Mode Transducers for High Q Bulk Microwave Resonators , 1987, 41st Annual Symposium on Frequency Control.

[2]  M. M. Driscoll,et al.  Spectral Degradation in VHF Crystal Controlled Oscillators Due to Short-Term Instability in the Quartz Resonator , 1985, IEEE 1985 Ultrasonics Symposium.

[3]  D. Leeson A simple model of feedback oscillator noise spectrum , 1966 .

[4]  Low Noise Crystal Oscillators Using 50-ohm, Modular Amplifier Sustaining Stages , 1986, 40th Annual Symposium on Frequency Control.

[5]  B. R. Mcavoy,et al.  Frequency stability of high overtone bulk acoustic resonators , 1990, IEEE Symposium on Ultrasonics.

[6]  M. Driscoll Low-noise microwave signal generation using bulk- and surface-acoustic-wave resonators , 1988, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[7]  G. K. Montress,et al.  Extremely low-phase-noise SAW resonators and oscillators: design and performance , 1988, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[8]  T. E. Parker,et al.  1/f Frequency Fluctuations in Acoustic and Other Stable Oscillators , 1985, 39th Annual Symposium on Frequency Control.

[9]  G. K. Montress,et al.  Extremely Low Phase Noise SAW Resonator Oscillator Design and Performance , 1987, IEEE 1987 Ultrasonics Symposium.

[10]  Fred L. Walls,et al.  Measurement of the Short-Term Stability of Quartz Crystal Resonators and the Implications for Crystal Oscillator Design and Applications , 1975, IEEE Transactions on Instrumentation and Measurement.