DocumentCode :
1219395
Title :
Cycle Slipping in a First-Order Phase-Locked Loop
Author :
Hess, Donald T.
Author_Institution :
Polytechnic Inst. of Brooklyn, Brooklyn, NY
Volume :
16
Issue :
2
fYear :
1968
fDate :
4/1/1968 12:00:00 AM
Firstpage :
255
Lastpage :
260
Abstract :
In this paper a model for a carrier plus narrowband noise is presented, and with its aid the expected number of cycle slipping events per second for a first-order phase-locked loop (PLL) driven by a narrowband noise corrupted carrier, both with and without a limiter, is determined. Experimental data are presented which indicate the extreme accuracy of the results obtained with the use of this model. The noise model, which is based on the hypothesis that steps of 
in phase exist when a carrier is added to narrowband noise, yields not only computational simplicity in calculating the expected number of cycle slipping events per second in a PLL, but also a good deal of insight into the basic threshold improvement mechanism of the PLL. In particular it is shown that a cycle slipping event, or equivalently a PLL output "click" occurs not when the PLL "loses lock," but rather when it tracks a step of appearing at its input.
in phase exist when a carrier is added to narrowband noise, yields not only computational simplicity in calculating the expected number of cycle slipping events per second in a PLL, but also a good deal of insight into the basic threshold improvement mechanism of the PLL. In particular it is shown that a cycle slipping event, or equivalently a PLL output "click" occurs not when the PLL "loses lock," but rather when it tracks a step of appearing at its input.Keywords :
Communications technology; Dynamic range; Filters; Frequency; Gaussian noise; Narrowband; Phase locked loops; Phase noise; Tracking loops; White noise;
fLanguage :
English
Journal_Title :
Communication Technology, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9332
Type :
jour
DOI :
10.1109/TCOM.1968.1089827
Filename :
1089827
Link To Document :
