Publication detail

Flux-Controlled Memristor Emulator and Its Experimental Results

RAJ, N. KUMAR RANJAN, R. KHATEB, F.

Original Title

Flux-Controlled Memristor Emulator and Its Experimental Results

English Title

Flux-Controlled Memristor Emulator and Its Experimental Results

Type

journal article - other

Language

en

Original Abstract

A flux-controlled memristor emulator built with off-the-shelf electronic devices and based on a TiO₂ model is presented in this article. The circuit proposed in this article uses the current mode approach based analog building blocks such as a second-generation current conveyor (CCII) and an operational transconductance amplifier (OTA) as an active element with few passive elements. The circuit shows a clear fingerprint of an ideal memristor. The offered emulator circuit can be made to operate in incremental and decremental modes and functions well up to 26.3 MHz. Nonvolatility, Monte Carlo sampling, and corner analysis simulations are executed to verify the robustness of the circuit. The functional verification of the presented circuit is performed using the 0.18-μm CMOS parameter at a supply voltage of ±1.2 V. The experimental demonstration is carried out by making a prototype on a breadboard using ICs AD844AN and CA3080, which exhibits a good agreement with theoretical and simulation results. The layout of the circuit, which requires a total chip area of 75 x 70 μm², is also created. Single/parallel combinations of a memristor, a high-pass filter, and a chaotic system are presented to demonstrate its application.

English abstract

A flux-controlled memristor emulator built with off-the-shelf electronic devices and based on a TiO₂ model is presented in this article. The circuit proposed in this article uses the current mode approach based analog building blocks such as a second-generation current conveyor (CCII) and an operational transconductance amplifier (OTA) as an active element with few passive elements. The circuit shows a clear fingerprint of an ideal memristor. The offered emulator circuit can be made to operate in incremental and decremental modes and functions well up to 26.3 MHz. Nonvolatility, Monte Carlo sampling, and corner analysis simulations are executed to verify the robustness of the circuit. The functional verification of the presented circuit is performed using the 0.18-μm CMOS parameter at a supply voltage of ±1.2 V. The experimental demonstration is carried out by making a prototype on a breadboard using ICs AD844AN and CA3080, which exhibits a good agreement with theoretical and simulation results. The layout of the circuit, which requires a total chip area of 75 x 70 μm², is also created. Single/parallel combinations of a memristor, a high-pass filter, and a chaotic system are presented to demonstrate its application.

Keywords

Current mode, Memristor emulator, Pinched hysteresis loop, Chua’s oscillator.

Released

01.03.2020

Publisher

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC

Location

USA

Pages from

1050

Pages to

1061

Pages count

12

URL

BibTex


@article{BUT161003,
  author="Fabian {Khateb}",
  title="Flux-Controlled Memristor Emulator and Its Experimental Results",
  annote="A flux-controlled memristor emulator built with off-the-shelf electronic devices and based on a TiO₂ model is presented in this article. The circuit proposed in this article uses the current mode approach based analog building blocks such as a second-generation current conveyor (CCII) and an operational transconductance amplifier (OTA) as an active element with few passive elements. The circuit shows a clear fingerprint of an ideal memristor. The offered emulator circuit can be made to operate in incremental and decremental modes and functions well up to 26.3 MHz. Nonvolatility, Monte Carlo sampling, and corner analysis simulations are executed to verify the robustness of the circuit. The functional verification of the presented circuit is performed using the 0.18-μm CMOS parameter at a supply voltage of ±1.2 V. The experimental demonstration is carried out by making a prototype on a breadboard using ICs AD844AN and CA3080, which exhibits a good agreement with theoretical and simulation results. The layout of the circuit, which requires a total chip area of 75 x 70 μm², is also created. Single/parallel combinations of a memristor, a high-pass filter, and a chaotic system are presented to demonstrate its application.",
  address="IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC",
  chapter="161003",
  doi="10.1109/TVLSI.2020.2966292",
  howpublished="print",
  institution="IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC",
  number="4, IF: 1.946",
  volume="28",
  year="2020",
  month="march",
  pages="1050--1061",
  publisher="IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC",
  type="journal article - other"
}