TiO2 Memristor Modelling with LabVIEW

Muhammet Emin Şahin; Hasan Güler

EN

TiO2 Memristor Modelling with LabVIEW

Abstract

The fourth fundamental circuit element-Memristor, was mathematically modelled by Prof. Leon Chua in 1971. After about four decades, researchers at the Hewlett–Packard (HP) laboratories submitted the development of a new basic circuit element that completes the missing link between charge and flux linkage, which was suggested by Chua. Though a physical memristor device was not discovered then, many unique simulation applications are executed to take advantage of memristor feature which is different from other circuit elements by many researchers. In this paper, we use TiO2 memristor model on account of its simplified expressions and the same ideal physical behaviors. Firstly, we obtained the mathematical equations of TiO2 memristor. Then, these equations are created with LabVIEW and results are submitted. Finally, results of this system’s behavior and stability analysis of are submitted.

Keywords

LabVIEW,Memristor,modelling and simulation,physical behavior

References

1. L. Chua, “Memristor-the missing circuit element,” Circuit Theory, IEEE
2. G. Dearnaley, A. M. Stoneham, and D. V. Morgan, “Electrical phenomena in amorphous oxide films,” Reports on Progress in Physics, vol. 33, no. 3, p. 1129, 1970. [Online]. Available: http://stacks.iop.org/0034-4885/33/i=3/a=306
3. D. B. Strukov, G. S. Snider, D. R. Stewart, and R. S. Williams, “The missing memristor found,” Nature, vol. 453, pp. 80–83, 2008.
4. ME Sahin, H Guler, T Kaya, LabVIEW Model Of Memristor With Nonlinear Dopant Drift, European Journal of Technic 6 (2), 124-130,2016
5. Mazumder, P., Kang, S. M., & Waser, R. (2012). Memristors: devices, models, and applications. Proceedings of the IEEE, 100(6), 1911-1919.
6. Biolek, Z., Biolek, D., & Biolkova, V. (2009). SPICE Model of Memristor with Nonlinear Dopant Drift. Radioengineering(18), 210-214.
7. Zhang, Y., Xuliang, Z., & Juebang, Y. (2009). Approximated SPICE model for memristor. In Communications, Circuits and Systems, ICCCAS 2009. International Conference (pp. 928-931). IEEE.
8. R. Williams, How we found the missing memristor, Spectrum, IEEE 45 (2008), no. 12, 28 –35. 2, 7, 9, 24, 28

Details

Primary Language

English

Subjects

-

Journal Section

Research Article

Authors

Muhammet Emin Şahin

Hasan Güler This is me

Publication Date

October 1, 2017

Submission Date

September 28, 2017

Acceptance Date

February 22, 2017

Published in Issue

Year 2017 Volume: 12 Number: 2

IZ

https://izlik.org/JA54BH93YZ

Cite

RIS / Bibtex

APA

Şahin, M. E., & Güler, H. (2017). TiO2 Memristor Modelling with LabVIEW. Turkish Journal of Science and Technology, 12(2), 79-83. https://izlik.org/JA54BH93YZ

AMA

1.Şahin ME, Güler H. TiO2 Memristor Modelling with LabVIEW. TJST. 2017;12(2):79-83. https://izlik.org/JA54BH93YZ

Chicago

Şahin, Muhammet Emin, and Hasan Güler. 2017. “TiO2 Memristor Modelling With LabVIEW”. Turkish Journal of Science and Technology 12 (2): 79-83. https://izlik.org/JA54BH93YZ.

EndNote

Şahin ME, Güler H (October 1, 2017) TiO2 Memristor Modelling with LabVIEW. Turkish Journal of Science and Technology 12 2 79–83.

IEEE

[1]M. E. Şahin and H. Güler, “TiO2 Memristor Modelling with LabVIEW”, TJST, vol. 12, no. 2, pp. 79–83, Oct. 2017, [Online]. Available: https://izlik.org/JA54BH93YZ

ISNAD

Şahin, Muhammet Emin - Güler, Hasan. “TiO2 Memristor Modelling With LabVIEW”. Turkish Journal of Science and Technology 12/2 (October 1, 2017): 79-83. https://izlik.org/JA54BH93YZ.

JAMA

1.Şahin ME, Güler H. TiO2 Memristor Modelling with LabVIEW. TJST. 2017;12:79–83.

MLA

Şahin, Muhammet Emin, and Hasan Güler. “TiO2 Memristor Modelling With LabVIEW”. Turkish Journal of Science and Technology, vol. 12, no. 2, Oct. 2017, pp. 79-83, https://izlik.org/JA54BH93YZ.

Vancouver

1.Muhammet Emin Şahin, Hasan Güler. TiO2 Memristor Modelling with LabVIEW. TJST [Internet]. 2017 Oct. 1;12(2):79-83. Available from: https://izlik.org/JA54BH93YZ