Add to ORKGWe study 1/f and narrow-bandwidth noise in precision oscillators based on high-quality factor resonators and feedback. The dynamics of such an oscillator are well described by two variables, an amplitude and a phase. In this description we show that low-frequency feedback noise is represented by a single noise vector in phase space. The implication of this is that 1/f and narrow-bandwidth noise can be eliminated by tuning controllable parameters, such as the feedback phase. We present parameter values for which the noise is eliminated and provide specific examples of noise sources for further illustration
In its most basic form an oscillator consists of a resonator driven on resonance, through feedback, ...
Oscillators are ubiquitous to radio frequency circuits, where frequency translations and channel sel...
We introduce a new method for reducing phase noise in oscillators, thereby improving their frequency...
We study 1/f and narrow-bandwidth noise in precision oscillators based on high-quality factor resona...
We study the role of amplifier saturation in eliminating feedback noise in self-sustained oscillator...
We demonstrate an analytical method for calculating the phase sensitivity of a class of oscillators ...
We present a method for analyzing the phase noise of oscillators based on feedback driven high quali...
Using a new Admittance-based model for electrical noise able to handle Fluctuations and Dissipations...
Since a few decades, frequency control technology has been at the heart of modern day electronics du...
Since a few decades, frequency control technology has been at the heart of modern day electronics du...
Linear time-invariant (LTI) phase noise theories provide important qualitative design insights but a...
Oscillator configurations which reduce the effect of 1/f noise sources for both direct feedback and ...
Presenting a comprehensive account of oscillator phase-noise and frequency stability, this practical...
The frequency flicker of an oscillator, which appears as a 1/f^3 line in the phase noise spectral de...
International audienceThe frequency flicker of an oscillator, which appears as a $1/f^3$ line in the...
In its most basic form an oscillator consists of a resonator driven on resonance, through feedback, ...
Oscillators are ubiquitous to radio frequency circuits, where frequency translations and channel sel...
We introduce a new method for reducing phase noise in oscillators, thereby improving their frequency...
We study 1/f and narrow-bandwidth noise in precision oscillators based on high-quality factor resona...
We study the role of amplifier saturation in eliminating feedback noise in self-sustained oscillator...
We demonstrate an analytical method for calculating the phase sensitivity of a class of oscillators ...
We present a method for analyzing the phase noise of oscillators based on feedback driven high quali...
Using a new Admittance-based model for electrical noise able to handle Fluctuations and Dissipations...
Since a few decades, frequency control technology has been at the heart of modern day electronics du...
Since a few decades, frequency control technology has been at the heart of modern day electronics du...
Linear time-invariant (LTI) phase noise theories provide important qualitative design insights but a...
Oscillator configurations which reduce the effect of 1/f noise sources for both direct feedback and ...
Presenting a comprehensive account of oscillator phase-noise and frequency stability, this practical...
The frequency flicker of an oscillator, which appears as a 1/f^3 line in the phase noise spectral de...
International audienceThe frequency flicker of an oscillator, which appears as a $1/f^3$ line in the...
In its most basic form an oscillator consists of a resonator driven on resonance, through feedback, ...
Oscillators are ubiquitous to radio frequency circuits, where frequency translations and channel sel...
We introduce a new method for reducing phase noise in oscillators, thereby improving their frequency...