Title :
Minimum achievable phase noise of RC oscillators
Author :
Navid, Reza ; Lee, Thomas H. ; Dutton, Robert W.
Author_Institution :
Stanford Univ., CA, USA
fDate :
3/1/2005 12:00:00 AM
Abstract :
To make RC oscillators suitable for RF applications, their typically poor phase-noise characteristics must be improved. We show that, for a given power consumption, this improvement is fundamentally limited by the fluctuation-dissipation theorem of thermodynamics. We also present the analytical formulation of this limit for relaxation (including ring) oscillators using a time-domain phase-noise analysis method which is introduced in this paper. Measurement shows the maximum possible improvement is generally less than 6dB for ring oscillators, while it can be as high as 21dB for other relaxation oscillators. The suboptimal performance of relaxation oscillators is attributed to the continuous current flow in these oscillator topologies. These results provide useful insight for feasibility studies of oscillator design.
Keywords :
RC circuits; jitter; phase noise; relaxation oscillators; time-domain analysis; RC oscillators; continuous current flow; fluctuation-dissipation theorem; integrated oscillator; jitter; minimum achievable phase noise; oscillator design; oscillator topologies; phase-noise characteristics; power consumption; relaxation oscillators; ring oscillators; thermodynamics; time-domain phase-noise analysis method; Circuit noise; Inverters; Jitter; MOS capacitors; Phase noise; Power transmission lines; Radio frequency; Resistors; Ring oscillators; Voltage; Integrated oscillator; jitter; phase noise; relaxation oscillator; ring oscillator;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2005.843591
