Title :
Standing wave oscillators utilizing wave-adaptive tapered transmission lines
Author :
Andress, William F. ; Ham, Donhee
Author_Institution :
Div. of Eng. & Appl. Sci., Harvard Univ., Cambridge, MA, USA
fDate :
3/1/2005 12:00:00 AM
Abstract :
In this paper, we introduce a novel standing wave oscillator (SWO) utilizing standing-wave-adaptive tapered transmission lines. This structure enhances Q and lowers phase noise through loss-reducing shaping of the transmission line, such that it is adapted to the position-dependent amplitudes of standing waves. Measurements validate the advantages of the proposed technique. The phase noise of a MOS SWO with the tapered line is 5-10 dB less than that of a uniform-line MOS SWO over a wide range of offset frequencies, centered about 15 GHz. Demonstrating a valuable exploitation of standing wave properties, the novel design concept boosts the potential for the emergence of standing wave oscillators as a useful alternative to the traditional lumped LC oscillator.
Keywords :
MOS integrated circuits; Q-factor; microwave oscillators; phase noise; transmission lines; Q factor enhancement; integrated circuits; loss reduction; phase noise; position-dependent amplitude; quality factor; radio-frequency; standing wave oscillator; standing-wave-adaptive tapered transmission lines; transmission line shape; uniform-line MOS SWO; Distributed parameter circuits; Inverters; Oscillators; Phase noise; Propagation losses; Radio frequency; Transmission line measurements; Transmission line theory; Transmission lines; Vehicles; Integrated circuits; oscillators; phase noise; quality factor; radio-frequency (RF); standing wave oscillators; standing waves; tapered transmission lines; transmission lines;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2005.843600
