Chua's circuit decomposition: A systematic design approach for chaotic oscillators
Abstract
The fact that Chua's circuit can be physically decomposed into a sinusoidal oscillator coupled to an active voltage-controlled nonlinear resistor is demonstrated. The sinusoidal oscillator is the beating heart of Chua's circuit and many novel implementations can be obtained by using different sinusoidal oscillator engines. In particular, inductorless realizations can be derived not by replacing the passive inductor in the classical Chua's circuit configuration with an active RC emulation, but rather by replacing the passive LC tank resonator by a sinusoidal oscillator. We provide several circuit-design examples and verify our results experimentally. Finally, we state a conjecture which we believe forms a basis for the design of autonomous analog chaotic oscillators.
Publication Title
Journal of the Franklin Institute
Recommended Citation
Elwakil, A., & Kennedy, M. (2000). Chua's circuit decomposition: A systematic design approach for chaotic oscillators. Journal of the Franklin Institute, 337 (2), 251-265. https://doi.org/10.1016/S0016-0032(00)00019-3
