Title :
Jitter transfer characteristics of delay-locked loops - theories and design techniques
Author :
Lee, M. J Edward ; Dally, William J. ; Greer, Trey ; Ng, Hiok-Tiaq ; Farjad-Rad, Ramin ; Poulton, John ; Senthinathan, Ramesh
Author_Institution :
Velio Commun. Inc., Milpitas, CA, USA
fDate :
4/1/2003 12:00:00 AM
Abstract :
This paper presents analyses and experimental results on the jitter transfer of delay-locked loops (DLLs). Through a z-domain model, we show that in a widely used DLL configuration, jitter peaking always exists and high-frequency jitter does not get attenuated as previous analyses suggest. This is true even in a first-order DLL and an overdamped second-order DLL. The amount of jitter peaking is shown to trade off with the tracking bandwidth and, therefore, the acquisition time. Techniques to reduce jitter amplification by loop filtering and phase filtering are discussed. Measurements from a prototype chip incorporating the discussed techniques confirm the prediction of the analytical model. In environments where the reference clock is noisy or where multiple timing circuits are cascaded, this jitter amplification effect should be carefully evaluated.
Keywords :
clocks; delay lock loops; frequency synthesizers; frequency-domain analysis; timing jitter; acquisition time; delay-locked loops; first-order DLL; high-frequency jitter; jitter peaking; jitter transfer characteristics; loop filtering; multiple timing circuits; phase filtering; reference clock; second-order DLL; tracking bandwidth; z-domain model; Analytical models; Bandwidth; Circuit noise; Clocks; Delay; Filtering; Jitter; Prototypes; Semiconductor device measurement; Working environment noise;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2003.809519
