Title :
Extremely low phase noise UHF oscillators utilizing high-overtone, bulk-acoustic resonators
Author :
Driscoll, M.M. ; Jelen, Robert A. ; Matthews, N.
Author_Institution :
Westinghouse Electric Corp., Baltimore, MD, USA
Abstract :
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.<>
Keywords :
Q-factor; crystal resonators; electron device noise; frequency stability; oscillators; 1/f noise; 640 MHz; 9 dB; HBAR; RF amplifiers; Schottky-diode ALC; UHF oscillators; automatic level control; bulk-acoustic resonators; flicker-of-frequency noise; helical filter; high-overtone; insertion loss; loaded Q values; low phase noise oscillators; out-of-phase resonances; ovenized frequency-control elements; short-term frequency stability; sustaining stage; white phase noise floor level; 1f noise; Automatic logic units; Circuit noise; Frequency; Insertion loss; Oscillators; Phase noise; RLC circuits; Radiofrequency amplifiers; Resonance;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
