INVESTIGATION OF THE MEMRISTOR NONLINEAR PROPERTIES

Sviatoslav Khrapko

s.khrapko@chnu.edu.ua
Yuriy Fedkovych Chernivtsi National University, Department of Radio Engineering and Information (Ukraine)

Volodymyr Rusyn


Yuriy Fedkovych Chernivtsi National University, Department of Radio Engineering and Information (Ukraine)

Leonid Politansky


Yuriy Fedkovych Chernivtsi National University, Department of Radio Engineering and Information (Ukraine)

Abstract

The study of nonlinear systems is an important research topic for scientists and researchers. Memristor, for a long time, it remained just as a theoretical element and rarely appeared in the literature because of having no simple and practical realization. In this paper, we reviewed the theoretical substantiation of the memristor and conducted a practical study of its nonlinear properties using the memristor company KNOWM of series BS-AF-W 16DIP. We also investigated the characteristics of the memristor via the LabView environment.


Keywords:

memristor, hysteresis, nonlinear system, KNOWM

Agafonov О.М.: Memristor – revolucija v mikroelektronikie. X practical-science conference 2015, 2–35.
  Google Scholar

Bharathwaj M., Pracheta K.: Memristor Based Chaotic Circuits. IETE Technical Review 6/2009, 1–16.
  Google Scholar

Chua L.O.: Memristor – the missing circuit element. IEEE Trans. Circuit Theory 5/1971, 507–519.
  Google Scholar

Corinto F., Ascoli A.: Memristor based-element for chaotic circuits. Nonlinear Theory and Its Applications 3/2012, 336–356.
  Google Scholar

Strukov D.B., Snider G.S, Stewart G.R., Williams R.S.: The Missing Memristor Found. Nature 453/2008, 80–83.
  Google Scholar

Şuayb Çağrı Yener, Kuntman H.Н.: Fully CMOS Memristor Based Chaotic Circuit. Radioengineering 4/2014, 1140–1149.
  Google Scholar

Şuayb Çağrı Yener: Fully CMOS Memristor Based Chaotic Circuit. Radioengineering 4/2014, 1140–1149.
  Google Scholar

Zhao Y., Jiang Y., Jiuchao F., Wu L.: Modeling of memristor-based chaotic systems using nonlinear Wiener adaptive filters based on backslash operator. Chaos, Solitons and Fractals 87/2016, 12–16.
  Google Scholar

Zhen Y., Heng T., Chen G., Chua L.: What are memristor, memcapacitor, and meminductor. IEEE Trans. Circuits Syst-II 62/2015, 402–405.
  Google Scholar

Nechaj О.: Memristor: "nedostayushchiy element". Komputerra 2011, http://old.computerra.ru/vision/591537/ [1.01.2018].
  Google Scholar

Memristor, http://dic.academic.ru/dic.nsf/ruwiki/527619#.D0.9C.D0.B0.D1.82.D0.B5.D0.BC.D0.B0.D1.82.D0.B8.D1.87.D0.B5.D1.81.D0.BA.D0.B0.D1.8F_.D0.BC.D0.BE.D0.B4.D0.B5.D0.BB.D1.8C. [1.01.2018].
  Google Scholar

Nikiriv А.V.: Niemnogo o memristorie, 2014 http://www.trinitas.ru/rus/doc/0023/001a/1052-nik.pdf. [1.01.2018].
  Google Scholar

Knowm Memristors. Knowm Inc. Santa Fe, New Mexico 2015. http://knowm.org/downloads/Knowm_Memristors.pdf [1.01.2018].
  Google Scholar

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Published
2018-02-28

Cited by

Khrapko, S., Rusyn, V., & Politansky, L. (2018). INVESTIGATION OF THE MEMRISTOR NONLINEAR PROPERTIES. Informatyka, Automatyka, Pomiary W Gospodarce I Ochronie Środowiska, 8(1), 12–15. https://doi.org/10.5604/01.3001.0010.8544

Authors

Sviatoslav Khrapko 
s.khrapko@chnu.edu.ua
Yuriy Fedkovych Chernivtsi National University, Department of Radio Engineering and Information Ukraine

Authors

Volodymyr Rusyn 

Yuriy Fedkovych Chernivtsi National University, Department of Radio Engineering and Information Ukraine

Authors

Leonid Politansky 

Yuriy Fedkovych Chernivtsi National University, Department of Radio Engineering and Information Ukraine

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