Title of article
Double-delay fractional and integer-order tanlock loops
Author/Authors
Reyad El-Khazali a، نويسنده , , M.H.B.M. Shariff b، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2010
Pages
11
From page
1874
To page
1884
Abstract
Double-delay tanlock loops with fractional and integer-order filters that are straightforward
to implement are proposed. The amplitude, phase and frequency of the input signal
are explicitly obtained with the aid of two delayed signals. Two types of loops are proposed:
direct locking loop, where locking is achieved in a single sample but the loop does not have
a filter, and an iterative locking loop, where locking is achieved using an integral iterative
action. The iterative loop implements a filter, which governs the rate of locking and filters
out unwanted noise. The iterative loop exhibits an attractive linear phase error detector
with a period of 2 . Convergence and locking range analyses of first- and second-order
loops are introduced. The loops with two time delays are not affected by the variation in
signal power and have a wide locking range. The fractional-order dynamics of the digital
loop filter increase the loop bandwidth which increases its bandwidth but makes it susceptible
to noisy signals. A fifth-order loop filter can approximate an infinite dimensional
fractional-order filter which can easily be implemented using existing fast DSP processors.
The main points of this work are illustrated via numerical simulation.
Keywords
Integer order , Tanlock , Digital , Phase-locked loop , direct , Iterative , Fractional order
Journal title
Computers and Mathematics with Applications
Serial Year
2010
Journal title
Computers and Mathematics with Applications
Record number
921317
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