Open Access
Subscription Access
A New Electronically Tunable Current Differencing Transconductance Amplifier Based Meminductor Emulator and its Application
In this paper, a simple electronically tunable meminductor emulator based on current differencing transconductance amplifiers (CDTAs) and passive components has been suggested. The proposed CDTA-based emulator is unique as it is memristor-less, uses only a single type of active building block, has simpler circuitry, is electronically tunable, and uses only grounded capacitors. The proposed emulator shows acceptable performance over a broad frequency range. Using the LTSpice tool and 0.18μm CMOS technology, simulations were conducted to test the performance of this emulator. The proposed meminductor emulator's functionality has been examined for the chaotic oscillator and adaptive learning circuit. The satisfactory performance of these circuits confirms the use of the proposed emulator in a practical environment.
Keywords
Current Differencing Transconductance Amplifier (CDTA), Meminductor, Adaptive learning, Chaotic oscillator.
User
Font Size
Information
- Chua L, IEEE Trans on circuit theory, 18 (1971) 507.
- Di Ventra M, Pershin Y V & Chua L, Proc of the IEEE, 97 (2009) 1717
- Biolek D, Ventra M D & Pershin Y V, Radioengineering, 22 (2013) 945.
- Yu D, Liang Y, Iu H C & Chua L, 61 (2014) 758.
- Liang Y, Chen H & Yu D S, IEEE Trans on Circuits and Syst II Express Brief, 61 (2014) 299.
- Sah M Pd, Budhathoki R K, Yang C & Kim H, J of Semiconductor Tech and Science, 14 (2014) 750.
- Fouda M E & Radwan A G, Memristor-less current and voltage controlled meminductor emulators, in IEEE International Conference on Electronics, Circuits and Systems, 2014, 279.
- Fang Y, Wang G, Jin P, & Wang X, Int J of Bifurcation and Chaos, 26 (2016) 1.
- Wang S F, Circuit World, 42 (2016) 197.
- Babacan Y, Electrica, 18 (2018) 36–38.
- Zhao Q, Wang C, Zhang X, Chaos, 29 (2019) 013141.
- Vista J & Ranjan A, IEEE Trans on Computer Aided Design of Integrated Circuits and Systems, 39 (2019) 2020.
- Yu D, Zhao X, Sun T, Iu H & Fernando T, IEEE Transactions on Circuits and Systems II: Express Briefs. 67 (2019) 1334.
- Taskiran Z G C, Sagbas M & Ayten U E, AEU - Int J of Electronics and Communication, 119 (2020) 153180111
- Konal M & Kacar F, AEU - Int J of Electronics and Communications, 126 (2020) 1.
- Singh A & Rai S K, Iranian J of Science and Tech Trans of Electrical Engineering, 45 (2021) 1151.
- Singh A & Rai S K Circuits Syst Signal Process, 41 (2022) 2322.
- Khade A S, Vyas V & Sutaone M, Integration, 69 (2019) 242.
- Zhao Q, Wang C & Zhang X, Chaos, 29 (2019) 013141
- Minaei S, Göknar I C, Yıldız M & Yuce E, Int J of Electronics, 102 (2015) 911.
- Keskin A U, Biolek D, Hancioglu, E & Biolkova V, Int J Electron Commun AEU-INT J ELECTRON C, 60 (2006) 443.
- Singh, A, & Rai S K, J Computational Electronics, 21 (2022) 1026.
- Wang F Z, Chua L, Yang X, Helian N Tetzlaff, & R Schmidt T, Neural Networks, 45 (2013) 111.
Abstract Views: 107
PDF Views: 56