Phase locked loops in 10 Gb/s and faster data links are low phase noise devices. Characterization of their phase jitter transfer functions is difficult because the intrinsic noise of the PLLs is comparable to the phase noise of the reference clock signal. The problem is solved by using a linear model to account for the intrinsic noise. This study also introduces a novel technique for measuring the transfer function. It involves the use of the reference clock as a source of wideband excitation, in contrast to the commonly used sinusoidal excitations at discrete frequencies. The data reported here include the intrinsic noise of a PLL for 10 Gb/s links and the jitter transfer function of a PLL for 12.8 Gb/s links. The measured transfer functio...
"Jitter" is the noise modulation due to random time shifts on an otherwise ideal, or perfectly on-ti...
Abstract A periodic clock signal is required in many ICs. These clocks are for instance used to defi...
Phase-Locked Loops (PLLs) are widely used as frequency synthesis, clock signal recovery, etc, in var...
Phase locked loops for data links operating at 10 Gb/s or faster are low phase noise devices designe...
Phase Locked Loop (PLL) technology has received a wide range of applications in modern datacom, tele...
In this paper, we present a new method to measure the jitter caused by noise in a communication syst...
Jitter and phase noise properties of phase-locked loops (PLL) are analyzed, identifying various form...
This work introduces an accurate linearized model and phase noise spectral analysis of digital bang-...
This brief analyzes the jitter as well as the power dissipation of phase-locked loops (PLLs). It aim...
Bang-bang phase-locked loops (BBPLLs) are inherently nonlinear systems due to the binary phase detec...
Abstract—This paper presents analyses and experimental re-sults on the jitter transfer of delay-lock...
Paper presented at the IEEE International Symposium on Circuits and Systems (ISCAS), Taipei, Taiwan,...
Phase noise and jitter are two related quantities associated with a noisy oscillator. Phase noise is...
Paper presented at the Nordic microelectronics conference (NORCHIP), Tallinn, Estonia, 17-18 Novembe...
The advent of next-generation wireless standards demands ever-increasing data-rate communication sys...
"Jitter" is the noise modulation due to random time shifts on an otherwise ideal, or perfectly on-ti...
Abstract A periodic clock signal is required in many ICs. These clocks are for instance used to defi...
Phase-Locked Loops (PLLs) are widely used as frequency synthesis, clock signal recovery, etc, in var...
Phase locked loops for data links operating at 10 Gb/s or faster are low phase noise devices designe...
Phase Locked Loop (PLL) technology has received a wide range of applications in modern datacom, tele...
In this paper, we present a new method to measure the jitter caused by noise in a communication syst...
Jitter and phase noise properties of phase-locked loops (PLL) are analyzed, identifying various form...
This work introduces an accurate linearized model and phase noise spectral analysis of digital bang-...
This brief analyzes the jitter as well as the power dissipation of phase-locked loops (PLLs). It aim...
Bang-bang phase-locked loops (BBPLLs) are inherently nonlinear systems due to the binary phase detec...
Abstract—This paper presents analyses and experimental re-sults on the jitter transfer of delay-lock...
Paper presented at the IEEE International Symposium on Circuits and Systems (ISCAS), Taipei, Taiwan,...
Phase noise and jitter are two related quantities associated with a noisy oscillator. Phase noise is...
Paper presented at the Nordic microelectronics conference (NORCHIP), Tallinn, Estonia, 17-18 Novembe...
The advent of next-generation wireless standards demands ever-increasing data-rate communication sys...
"Jitter" is the noise modulation due to random time shifts on an otherwise ideal, or perfectly on-ti...
Abstract A periodic clock signal is required in many ICs. These clocks are for instance used to defi...
Phase-Locked Loops (PLLs) are widely used as frequency synthesis, clock signal recovery, etc, in var...