Abstract
A generalized inverse memristor emulator is proposed based on two BJT transistors as a diode connected with a first order parallel RC filter. The mathematical model of the circuit is presented where the pinched hysteresis loops (PHLs) with different periodic stimuli are analyzed. The numerical, P-Spice simulations and experimental results are presented indicating that the introduced emulator is a simple voltage-controlled generalized inverse memristor. The results show that the PHLs area is increased with increasing the applied frequency. In addition, the proposed emulator is employed in a simple chaotic circuit. The effect of the inductor’s values on the chaotic system is investigated and the P-Spice simulations are performed to approve the numerical results. © 2019 IEEE.
Authors
Khalil N.A., Said L.A., Radwan A.G., Soliman A.M.
Document Type
Source
2019 4th International Conference on Advances in Computational Tools for Engineering Applications, ACTEA 2019, Doi:10.1109/ACTEA.2019.8851104