Resistive Memristor behavior
DOI:
https://doi.org/10.18041/1794-4953/avances.2.256Keywords:
Basic Circuits, Memristor, MRLC circuit, Nonlinear AnalysisAbstract
In 1971 Professor Chua proposed the fourth basic element circuits and called it the memristor, an element that must directly relate charge and magnetic flux. It’s call memristor because it must have a behavior as a memory and resistor. In the present paper analyzes the answer of RLC circuit and compares it with the response when nonlinear element such a memristor or MRLC is included. The Analyzes were done both in the time domain and in the phase space defined from electric charge and current.
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References
Chua L. O. (1971). “Memristor: the missing circuitelement”, IEEE Trans. Circuit Theory, 18, 507-519.
D.B. Strukov, G.S. Snider, D.R. Stewart, and R.S.Williams, (2008). “The missing memristor found,”Nature (London) 453, 80-83.
Kim, H., Sah, M. P., Yang, C., Roska, T., & Chua,L. O. (2012). Memristor bridge synapses.Proceedings of the IEEE, 100(6), 2061-2070.
Kosta, S. P., Kosta, Y. P., Bhatele, M., Dubey, Y.M., Gaur, A., Kosta, S., & Patel, B. (2011). Humanblood liquid memristor. International Journal ofMedical Engineering and Informatics, 3(1), 16-29
Hu, M., Li, H., Wu, Q., & Rose, G. S. (2012, June).Hardware realization of BSB recall function usingmemristor crossbar arrays. In Proceedings of the49th Annual Design Automation Conference (pp.498-503). ACM.
Lin, Z., & Wang, H. (2010). Efficient imageencryption using a chaos-based PWL memristor.IETE Technical Review, 27(4), 318-325.
Duan, S., Hu, X., Dong, Z., Wang, L., &Mazumder, P. (2015). Memristor-based cellularnonlinear/neural network: design, analysis, andapplications. IEEE transactions on neuralnetworks and learning systems, 26(6), 1202-1213.
Kozma, R., Pino, R. E., & Pazienza, G. E. (Eds.).(2012). Advances in neuromorphic memristorscience and applications (Vol. 4). Springer Science& Business Media.
Joglekar, Y. N., & Wolf, S. J. (2009). The elusivememristor: properties of basic electrical circuits.European Journal of Physics, 30(4), 661.
Chua L. O. (2003). “Nonlinear CircuitFoundations for Nanodevices. I. The FourElementTorus,” Proceedings of the IEEE, Vol.91, No. 11, pp. 1830- 1859.
Chua L. O. (2011) “Resistance switchingmemories are memristors”, Applied Physics A,Materials Science and Processing, 765-783.
Gómez-Aguilar, J.F., Córdova-Fraga, T.,Escalante-Martínez, J.E., Calderón-Ramón, C., &Escobar-Jiménez, R.F. (2016). Electrical circuitsdescribed by a fractional derivative with regularKernel. Revista mexicana de física, 62(2), 144-154.
Kim, H., Sah, M. P., Yang, C., Cho, S., & Chua, L.O. (2012). Memristor emulator for memristorcircuit applications. IEEE Transactions on Circuitsand Systems I: Regular Papers, 59(10), 2422-2431.
M. Di Ventra, Y. V. Pershin and L. O. Chua, (2009)"Circuit Elements with Memory: Memristors,Memcapacitors, and Meminductors," inProceedings of the IEEE, vol. 97, no. 10, pp. 1717-1724, Oct.
