DESIGN AND CIRCUIT IMPLEMENTATION FOR A NOVEL CHARGE-CONTROLLED CHAOTIC MEMRISTOR SYSTEM | Zendy

Zengqiang Chen | Zendy; Hang Tang | Zendy; Zhonglin Wang | Zendy; Qing Zhang | Zendy; Alexander Han | Zendy

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DESIGN AND CIRCUIT IMPLEMENTATION FOR A NOVEL CHARGE-CONTROLLED CHAOTIC MEMRISTOR SYSTEM

Author(s) -

Zengqiang Chen,

Hang Tang,

Zhonglin Wang,

Qing Zhang,

Alexander Han

Publication year - 2015

Publication title -

journal of applied analysis and computation

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.55

H-Index - 21

eISSN - 2158-5644

pISSN - 2156-907X

DOI - 10.11948/2015023

Subject(s) - memristor , chaotic , chaotic systems , charge (physics) , computer science , control theory (sociology) , materials science , electronic engineering , physics , engineering , artificial intelligence , control (management) , quantum mechanics

This paper deals with the simulation and implementation of a new charge-controlled memristor based on the simplest chaotic circuit. The circuit we used has only three basic elements in series. Some period-one and period-doubling chaotic routes are generated by this circuit with changes in its component values. Device-level simulation is conducted by using Multisim to provide the basis for building the real chaotic circuit. The results of numerical simulations are identical to those of circuit simulations, demonstrating that the circuit is feasible.

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