Simulink Model for Piece Wise Linear Approximation of Memristor

Authors

  • Ahmet SOLAK
  • Saadetdin HERDEM

DOI:

https://doi.org/10.18100/ijamec.281481

Keywords:

Control Equations, Equivalent Circuit, Memristor, PWL Model, Simulink Model

Abstract

Memristor is a passive circuit element which firstly presented to science world by Leon Chua in 1971. Chua showed a missing link among four fundamental circuit variables which generate basic passive circuit elements. Chua described this missing link between charge and flux, named it as memristor. Memristor is firstly realized by Stanley Williams and his team from HP (Hewlett Packard) research laboratories in 2006. In this study, doped and undoped TiO 2 are sandwiched between two Pt layers in nano scale. And this element demonstrated voltage-current characteristic like memristor. Physically implementation of memristor is announced with a paper to science world in 2008. The studies about memristor have quite increased along with this study. In this paper, a new PWL (Piece Wise Linear) memristor model is obtained thereby linearizing current-voltage characteristic of memristor. The equivalent circuit is derived from this model, built in Simulink and results are observed. The results are compared with other studies in literature and obtained results have been shared.

Downloads

Download data is not yet available.

References

Chua L. Memristor-the missing circuit element, IEEE Transactions on circuit theory, Vol. 18, Number 5, 1971, pp. 507-519.

Chua L. O., and Kang S. M. Memristive devices and systems, Proceedings of the IEEE, Vol. 64, Number 2, 1976, pp. 209-223.

Strukov D. B., Snider G. S., Stewart D. R., and Williams R. S. The missing memristor found, Nature, Vol. 453, Number 7191, 2008, pp. 80-83.

Kvatinsky S., Friedman E. G., Kolodny A., and Weiser U. C. TEAM: threshold adaptive memristor model, IEEE Transactions on Circuits and Systems I: Regular Papers, Vol. 60, Number 1, 2013, pp. 211-221.

Pickett M. D., Strukov D. B., Borghetti J. L., Yang J. J., Snider G. S., Stewart D. R., and Williams R. S., Switching dynamics in titanium dioxide memristive devices, Journal of Applied Physics,Vol. 106, Number 7, 2009, pp. 074508.

Waser R., Dittmann R., Staikov G., and Szot K. Redox‐based resistive switching memories–nanoionic mechanisms, prospects, and challenges, Advanced materials, Vol. 21, Number 25‐26, 2009, pp. 2632-2663.

Valov I., Linn E., Tappertzhofen S., Schmelzer S., Van den Hurk J., Lentz F., and Waser R., Nanobatteries in redox-based resistive switches require extension of memristor theory, Nature communications, Vol. 4, 2013, pp. 1771.

Kim G. H., Lee J. H., Ahn Y., Jeon W., Song S. J., Seok J. Y., Yoon J. H., Yoon K. J., Park T. J., and Hwang C. S. 32× 32 crossbar array resistive memory composed of a stacked Schottky diode and unipolar resistive memory, Advanced Functional Materials, Vol. 23, Number 11, 2013, pp. 1440-1449.

Volos C. K., Kyprianidis I., Stouboulos I., Tlelo-Cuautle E., and Vaidyanathan S. Memristor: A new concept in synchronization of coupled neuromorphic circuits, J Eng Sci Technol Rev, Vol. 8, Number. 2, 2015, pp. 157-173.

Pham V., Volos C. K., Vaidyanathan S., Le T., and Vu V. A memristor-based hyperchaotic system with hidden attractors: dynamics, synchronization and circuital emulating, Journal of Engineering Science and Technology Review, Vol. 8, Number 2, 2015, pp. 205-214.

Pan F., Gao S., Chen C., Song C., and Zeng F. Recent progress in resistive random access memories: materials, switching mechanisms, and performance, Materials Science and Engineering: R: Reports, Vol. 83, 2014, pp. 1-59.

Wang D., HuZ ., Yu X., and Yu J. A PWL model of memristor and its application example, Proceedings on the International Conference on Communications, Circuits and Systems (ICCCAS2009), Published by IEEE, 23-25 July 2009, USA, California.

Vourkas I. and Sirakoulis G. C. A novel design and modeling paradigm for memristor-based crossbar circuits, IEEE Transactions on Nanotechnology, Vol. 11, Number 6, 2012, pp. 1151-1159.

Joglekar Y. N. and Wolf S. J. The elusive memristor: properties of basic electrical circuits, European Journal of Physics, Vol. 30, Number 4, 2009, pp. 661.

Solak A. and Herdem S. A Piece Wise Linear Memristor Model with Switches, International Journal of Modeling and Optimization, Vol. 6, Number 2, 2016, pp. 124.

Downloads

Published

01-12-2016

Issue

Section

Research Articles

How to Cite

[1]
“Simulink Model for Piece Wise Linear Approximation of Memristor”, J. Appl. Methods Electron. Comput., pp. 386–390, Dec. 2016, doi: 10.18100/ijamec.281481.

Similar Articles

91-100 of 157

You may also start an advanced similarity search for this article.