Title :
Optimum Strategies for Minimum Time Frequency Transitions in Phase-Locked Loops
Author :
Sanneman, Richard W. ; Gupta, Someshwar C.
Author_Institution :
Motorola, Inc. Western Military Electronics Center Scottsdale, Ariz.
Abstract :
Pontryagin´s maximum principle is applied to minimize the time for a phase-locked loop to lock to a step change in frequency. In particular, a Type II phase-locked loop is considered in detail. Phase control and frequency control of the input signal are analyzed with the nonlinearity of the phase detector taken into consideration. It is shown that application of Pontryagin´s maximum principle offers a decided advantage in shortening this time by proper control.
Keywords :
Communication system control; Damping; Detectors; Frequency locked loops; Phase control; Phase detection; Phase locked loops; Time frequency analysis; Tracking loops; Voltage-controlled oscillators; Communication; control; frequency; nonlinear; phaselock; tracking; transition;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.1966.4501933
