Title :
Suppressing Self-Modulation Instability in a Delayed Feedback Traveling Wave Tube Oscillator Using Controlling Chaos Technique
Author :
Ryskin, Nikita M. ; Khavroshi, Oleg S.
Author_Institution :
Saratov State Univ., Saratov
Abstract :
Self-modulation instability is typical for traveling wave tube (TWT) oscillators with time-delayed feedback. This instability results in the generation of multiple frequencies or even spread spectrum chaotic signal. In this paper, we propose a method for suppressing the self-modulation, that is, a modification of the well-known time-delayed controlling chaos technique. Numerical results are presented, showing that application of the method allows stabilization of unstable single frequency regimes and improves performance of the oscillator. The same method can be used for suppressing the gain ripples arising due to end reflections in the TWT amplifier.
Keywords :
chaos; feedback oscillators; modulation; travelling wave tubes; even spread spectrum chaotic signal; gain ripples suppression; multiple frequencies generation; self-modulation instability suppression; time delayed feedback TWT oscillator; time-delayed controlling chaos technique; traveling wave tube oscillator; Chaos; Chemical lasers; Delay effects; Feedback loop; Frequency; Oscillators; Propagation delay; Pulse amplifiers; Reflection; Spread spectrum communication; Controlling chaos; delayed feedback oscillator; gain ripples; self-modulation; traveling wave tube;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2007.912366
