Memristor circuit simulation in MicroCap

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Published: Jul 23, 2015
DOI: https://doi.org/10.20535/2312-1807.2015.20.1.47384
Keywords:
memristor, MicroCap, modeling, memristance, the dependence of the resistance of the charge flux

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В. Г. Артюхов
И. В. Коноваленко

Abstract

Main purpose of the publication - to attract the attention of students, graduates and young professionals to the new functional element of electronic circuits - memristor, having the ability to "memorize" the resistance. Appearance of memristor model in MicroCap 10 enables the ability to develop and research memristor circuits: memory circuits, neural networks, etc. In this article is given a detailed description of the model and made simulation of a simple memristor circuits with voltage and current sources. These results demonstrate the method of receiving the memristors characteristics and show its properties. This technique can be used for modeling more complex memristor circuits. Referenses 5, Figures 6.

Article Details

How to Cite
Артюхов, В. Г., & Коноваленко, И. В. (2015). Memristor circuit simulation in MicroCap. Electronics and Communications, 20(1), 27. https://doi.org/10.20535/2312-1807.2015.20.1.47384
Issue
Vol. 20 No. 1 (2015)
Section
Power electronics
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References

Chua L.O. (1971), «Memristor – the missing circuit element». IEEE Transactions on circuit theory.Vol. 18. No 5. Pр. 507-519.

Strukov D.B. [et al]. (2008), “The missing memristor found”. Nature.. V. 453. Pр. 80-83. DOI:10.1038/nature06932

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Biolek Z., Biolek D., Biolkova V. (2009), “SPICE model of memristor with nonlinear dopant drift”. Radioengineering. Vol. 18. No 2. Pр. 210-214.

Zaplatilek K. (2011), “Memristor modeling in MATLAB and Simulink”. Proceedings of the European computing conference. Pр. 62-67.