期刊论文详细信息
Heliyon
Didactic model of a simple driven microwave resonant T-L circuit for chaos, multistability and antimonotonicity
R. Kengne1  R. Tchitnga2  A. Fomethe2  F.C. Talla3  B. Nana3 
[1] Department of Physics, Higher Teacher Training College, University of Bamenda, P.O. Box 39, Bamenda, Cameroon;Unit of Condensed Matter Research, Electronics and Signal Processing, LAMACET, Faculty of Science, Department of Physics, University of Dschang, P.O. Box 67, Dschang, Cameroon;Research Group on Experimental and Applied Physics for Sustainable Development, Faculty of Science, Department of Physics, University of Dschang, P.O.Box 412, Dschang, Cameroon;
关键词: Education;    Electrical engineering;    Nonlinear physics;    Antimonotonicity;    Bipolar junction transistor;    Chaos;   
DOI  :  
来源: DOAJ
【 摘 要 】

A simple driven bipolar junction transistor (BJT) based two-component circuit is presented, to be used as didactic tool by Lecturers, seeking to introduce some elements of complex dynamics to undergraduate and graduate students, using familiar electronic components to avoid the traditional black-box consideration of active elements. Although the effect of the base-emitter (BE) junction is practically suppressed in the model, chaotic phenomena are detected in the circuit at high frequencies (HF), due to both the reactant behavior of the second component, a coil, and to the birth of parasitic capacitances as well as to the effect of the weak nonlinearity from the base-collector (BC) junction of the BJT, which is otherwise always neglected to the favor of the predominant but now suppressed base-emitter one. The behavior of the circuit is analyzed in terms of stability, phase space, time series and bifurcation diagrams, Lyapunov exponents, as well as frequency spectra and Poincaré map section. We find that a limit cycle attractor widens to chaotic attractors through the splitting and the inverse splitting of periods known as antimonotonicity. Coexisting bifurcations confirm the existence of multi-stability behaviors, marked by the simultaneous apparition of different attractors (periodic and chaotic ones) for the same values of system parameters and different initial conditions. This contribution provides an enriching complement in the dynamics of simple chaotic circuits functioning at high frequencies. Experimental lab results are completed with PSpice simulations and theoretical ones.

【 授权许可】

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