Experimental and Simulation Results of Wien Bridge Oscillator Circuıt Realized wıth Op-Amp Designed Using a Memristor

Experimental and Simulation Results of Wien Bridge Oscillator Circuıt Realized wıth Op-Amp Designed Using a Memristor

In this study, a new op-amp model was created by re-designing the internal structure of the traditional operational amplifier (741 family) circuit element with a linear dopant drift TiO 2 memristor (LDDTM) emulator model. The optimized working conditions and states of this proposed op-amp model were...

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Bibliographic Details
Published in:Journal of electronic testing Vol. 38; no. 4; pp. 445 - 452
Main Authors: Parlar, İshak, Almali, M. Nuri
Format: Journal Article
Language:English
Published: New York Springer US 01-08-2022
Springer Nature B.V
Subjects:
CAE) and Design
Circuits
Circuits and Systems
Computer-Aided Engineering (CAD
Electrical Engineering
Engineering
Fast Fourier transformations
Fourier transforms
Memristors
Operational amplifiers
Oscillators
Signal processing
Simulation
Titanium dioxide
Transistors
Operational amplifier (op-amp)
RC oscillators
Wien bridge oscillator
Oscillator output parameters
LDDTM-model
Fast fourier transform (FFT)
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Description
Summary:In this study, a new op-amp model was created by re-designing the internal structure of the traditional operational amplifier (741 family) circuit element with a linear dopant drift TiO 2 memristor (LDDTM) emulator model. The optimized working conditions and states of this proposed op-amp model were determined. Wien bridge oscillator circuit realized with memristive based op-amp model has been investigated on oscillating start time, settling time, fast fourier transform (FFT) analysis and output parameters. In addition, the efficiency of the wien bridge oscillator circuit realized with a memristor-based opamp has been tested with application circuits and the accuracy and applicability of the proposed memristor-based opamp model has been extensively examined theoretically and supported by experimental and simulation results. Finally, both the simulation and experimental results of the oscillator circuits realized with a memristor-based opamp are presented in detail in tables.
ISSN:0923-8174
1573-0727
DOI:10.1007/s10836-022-06017-8