This paper proposes a methodology to accurately predict the phase noise effects in frequency synthesizers as a consequence of switching noise coupled through the substrate. The method proposed is based on a phase model of a frequency synthesizer where each circuit block is characterized by complex noise sensitivity functions. Considering the phase information of the different contributors allows to evaluate the noise without overestimation, as well as identifying the main noise contributors. This information can then be used by designers to decide where to put the effort to mitigate the noise effects. The methodology is applied to a typical N-Integer frequency synthesizer based on a LC-VCO. Measurements on this frequency synthesizer impleme...
The present work addresses the investigation of phase noise degradation of LC-tank VCOs due to real...
This paper presents a phase noise analysis of charge-pump phase-locked-loops. Fundamental results fr...
This paper reports a novel simulation methodology for analysis and prediction of substrate noise imp...
The Designer’s Guide Community downloaded from www.designers-guide.orgVersion 4f, March 2012 A metho...
The article describes the actual problem of calculating the level of parasitic fluctuations of the p...
Abstract—The phase noise of phase/frequency detectors can sig-nificantly raise the in-band phase noi...
Version 4e, August 2006 A methodology is presented for predicting the phase noise of a PLL-based fre...
This paper presents a behavior model for PLL Frequency Synthesizer. All the noise sources are modele...
This work proposes two novel simulation techniques that allow for fast and accurate predictions of p...
Graduation date: 2009In this thesis, the performance degradation of a phase-locked loop due to subst...
The Phase Locked Loops (PLLs) are widely used in contemporary electronic systems for frequency synth...
Two methodologies are presented for predicting the phase noise and jitter of a PLL-based frequency s...
Abstract: In this paper we demonstrate a rigorous noise analysis of the PLL based synthesizer circui...
Master of ScienceDepartment of Electrical and Computer EngineeringWilliam B. KuhnRF frequency synthe...
Abstract- This paper presents a methodology to simulate, at the system level, the substrate noise co...
The present work addresses the investigation of phase noise degradation of LC-tank VCOs due to real...
This paper presents a phase noise analysis of charge-pump phase-locked-loops. Fundamental results fr...
This paper reports a novel simulation methodology for analysis and prediction of substrate noise imp...
The Designer’s Guide Community downloaded from www.designers-guide.orgVersion 4f, March 2012 A metho...
The article describes the actual problem of calculating the level of parasitic fluctuations of the p...
Abstract—The phase noise of phase/frequency detectors can sig-nificantly raise the in-band phase noi...
Version 4e, August 2006 A methodology is presented for predicting the phase noise of a PLL-based fre...
This paper presents a behavior model for PLL Frequency Synthesizer. All the noise sources are modele...
This work proposes two novel simulation techniques that allow for fast and accurate predictions of p...
Graduation date: 2009In this thesis, the performance degradation of a phase-locked loop due to subst...
The Phase Locked Loops (PLLs) are widely used in contemporary electronic systems for frequency synth...
Two methodologies are presented for predicting the phase noise and jitter of a PLL-based frequency s...
Abstract: In this paper we demonstrate a rigorous noise analysis of the PLL based synthesizer circui...
Master of ScienceDepartment of Electrical and Computer EngineeringWilliam B. KuhnRF frequency synthe...
Abstract- This paper presents a methodology to simulate, at the system level, the substrate noise co...
The present work addresses the investigation of phase noise degradation of LC-tank VCOs due to real...
This paper presents a phase noise analysis of charge-pump phase-locked-loops. Fundamental results fr...
This paper reports a novel simulation methodology for analysis and prediction of substrate noise imp...