Elektronik Olarak Ayarlanabilir Memristör Tabanlı Chua Devresinin Gerçeklenmesi

Year 2019, , 121 - 129, 01.03.2019

Abdullah Yesıl , Yunus Babacan

https://doi.org/10.21597/jist.428405

Cited By: 1

Abstract

Fiziksel olarak memristörün 2008 yılında gerçeklenmesinden sonra, memristörler devre tasarımlarında geniş uygulama alanı bulmuştur. Memristör hafızalı olması, lineer olmayan karakteristik göstermesi ve oldukça yoğun bir yapıya sahip olması gibi üstün özelliklere sahiptir. Bu çalışmada elektronik olarak ayarlanabilen memristor devresi kullanılarak kaotik devre kurulmuştur. Beklendiği gibi devrenin kaotik davranışı başarılı bir şekilde elde edilmiştir. Ayrıca, farklı OTA (İşlemsel geçişiletkenliği kuvvetlendiricisi) kuyruk akımlarına göre devrenin kaotik davranışının değişimi de çalışmanın sonlarına doğru analiz edilmiştir.

Keywords

Memristor, kaotik devre, chua devresi, memristör tabanlı chua devresi

Implementation of Electronically Controllable Memristor Based Chua Circuit

Abstract

After physical realization of memristor in 2008, memristors are found wide application area in circuit designs. Memristor has superior properties such as to have memory behavior, to show nonlinear characteristics and to have ultra-dense structure. In this study, chaotic circuit is built using electronically controllable memristor circuit. As expected, chaotic behavior of circuit is successfully obtained. Additionally, the change of the chaotic behavior of the circuit according to the different OTA (Operational Transconductance Amplifier) currents is analyzed to the end of the study.

Keywords

Memristor, chaotic circuit, chua circuit, memristor based chua circuit

References

• Abuelma’atti MT, Khalifa ZJ, 2014. A new memristor emulator and its application in digital modulation. Analog Integrated Circuits and Signal Processing, 80(3):577-584.
• Abuelma’atti MT, Khalifa ZJ, 2015. A continuous-level memristor emulator and its application in a multivibrator circuit. AEU-International Journal of Electronics and Communications, 69(4):771-775.
• Babacan Y ve Kacar F, 2016. Floating Memristor Emulator with Subthreshold Region. Analog Integrated Circuits and Signal Processing, 90(2): 471-475.
• Babacan Y, Kacar F, Gurkan K, 2016. A Spiking and Bursting Neuron Circuit Based On Memristor. Neurocomputing, 203:86-91.
• Babacan Y, Yesil A ve Kacar F, 2017. Memristor emulator with tunable characteristic and its experimental results. AEU-International Journal of Electronics a nd Communications, 81:99-104.
• Biolek Z, Biolek D, Biolkova V, 2009. SPICE model of memristor with nonlinear dopant drift. Radioengineering, 18(2):210-214.
• Chua L, 1971. Memristor-The missing circuit element, IEEE Trans. Circuit Theory. 18:507–519.
• Elwakil AS, Fouda ME, Radwan AG, 2013. A simple model of double-loop hysteresis behavior in memristive elements. IEEE Transactions on Circuits and Systems II: Express Briefs, 60(8):487-491.
• Kim H, Sah MP, Yang C, Cho, S., Chua, L.O., 2012. Memristor emulator for memristor circuit applications. IEEE Transactions on Circuits and Systems I: Regular Papers, 59(10):2422-2431.
• Muthuswamy B, Kokate PP, 2009. Memristor-Based Chaotic Circuits. IETE Technical Review, 26(6):417-429.
• Minaei S, Goknar IC, Yıldız M, Yuce E, 2015. Memstor, memstance simulations via a versatile 4-port built with new adder and subtractor circuits. International Journal of Electronics, 102(6):911-931.
• Radwan AG, Zidan MA, Salama KN, 2010. On the mathematical modeling of memristors. International Conference on Microelectronics (ICM), 284-287.
• Rák Á, Cserey G, 2010. Macromodeling of the memristor in SPICE. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, 29(4):632-636.
• Sánchez-López C, Mendoza-Lopez J, Carrasco-Aguilar MA, & Muñiz-Montero, C., 2014. A floating analog memristor emulator circuit. Circuits and Systems II: Express Briefs, IEEE Transactions on 61(5):309-313.
• Sánchez-López C, Carrasco-Aguilar MA, Muñiz-Montero C, 2017. A 16 Hz-160 kHz memristor emulator circuit. AEU-International Journal of Electronics and Communications, 69:1208-19.
• Sánchez-López C, Aguila-Cuapio LE, 2017. A 860kHz grounded memristor emulator circuit. AEU-International Journal of Electronics and Communications,73:23-33.
• Sozen H, Cam U, 2016. Electronically tunable memristor emulator circuit. Analog Integrated Circuits and Signal Processing, 89(3):655-663.
• Strukov DB, Snider GS, Stewart DR, Williams RS, 2008. The missing memristor found. Nature. 453: 80–83.
• Yener S, Kuntman H, 2012. Fully CMOS Memristor Based Chaotic Circuit. Radioengineering, 23(4):1140-1149
• Yesil A, Babacan Y, Kacar F, 2014. A new DDCC based memristor emulator circuit and its applications. Microelectronics Journal,45(3):282-287.
• Yu D, Iu HHC, Fitch AL, Liang Y, 2014. A floating memristor emulator based relaxation oscillator. IEEE Transactions on Circuits and Systems I: Regular Papers, 61(10):2888-2896.