Floyd Gardner's PLL book is one of the best, but I'm not positive that
it has probability of slip analysis. I think it does, but you might
want to confirm first.
Blanchard's book is also good, and likely to have cycle slip analysis.
Both are primarily continuous-time analyses but the analyses hold (for
the most part, at least the techniques hold) for equivalent
discrete-time loop architectures. I've always used step-invariant
bilinear transforms to take the continuous time analyses to
discrete-time with very good results. Other techniques seem to work
as well, as long as one is consistent with the analysis and careful
about assumptions.
Hope that helps a little bit.
Cheers,
Eric
On 16 Jul 2003 07:05:18 -0700, nimrodm@yahoo.com (Nimrod Mesika)
wrote:
>Hi guys,
>
>Can anyone point me to a paper/book describing the analysis of the
>discrete time PLL?
>
>All I could find are books describing the nonlinear analysis of the
>continuous time PLL -- an analysis that is based on nonlinear
>differential equations.
>
>A discrete time analysis avoids the difficulty of continuous time
>white noise, etc.
>
>This is all for analysing the mean time between phase slips of a
>decision directed carrier recovery loop.
>
>Thanks,
>Nimrod.
Eric Jacobsen
Minister of Algorithms, Intel Corp.
My opinions may not be Intel's opinions.
http://www.ericjacobsen.org
Reply by Nimrod Mesika●July 16, 20032003-07-16
Hi guys,
Can anyone point me to a paper/book describing the analysis of the
discrete time PLL?
All I could find are books describing the nonlinear analysis of the
continuous time PLL -- an analysis that is based on nonlinear
differential equations.
A discrete time analysis avoids the difficulty of continuous time
white noise, etc.
This is all for analysing the mean time between phase slips of a
decision directed carrier recovery loop.
Thanks,
Nimrod.