Title :
Synchronization of oscillators coupled through narrow-band networks
Author :
Lynch, Jonathan J ; York, R.A.
Author_Institution :
HRL Res. Lab., Malibu, CA
fDate :
2/1/2001 12:00:00 AM
Abstract :
The ability of two coupled oscillators to synchronize depends critically on the coupling network. Previous analyses have accurately predicted the performance of quasi-optical microwave oscillator arrays for both weak and strong coupling, but have been limited to coupling networks with bandwidths considerably larger than the locking bandwidths of the oscillators. In this paper, the authors develop a method for deriving a suitable system of nonlinear differential equations describing the oscillator amplitude and phase dynamics using a generalization of Kurokawa´s method. The method is applied to the case of two Van der Pol oscillators coupled through a resonant network for a wide range of coupling strengths and bandwidths. Simple approximate formulas are developed for the size of the frequency locking region as functions of the basic circuit parameters
Keywords :
coupled circuits; injection locked oscillators; microwave oscillators; network parameters; nonlinear differential equations; relaxation oscillators; synchronisation; Kurokawa´s method; Van der Pol oscillators; circuit parameters; coupled oscillators; coupling strengths; frequency locking region; narrow-band networks; nonlinear differential equations; oscillator amplitude; phase dynamics; quasi-optical microwave oscillator arrays; resonant network; synchronization; Bandwidth; Coupling circuits; Differential equations; Frequency synchronization; Microwave antenna arrays; Microwave oscillators; Narrowband; Nonlinear dynamical systems; Performance analysis; Resonance;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
