A floating meminductor emulator using modified differential voltage current conveyor transconductance amplifier and its application

Abstract

In this paper, a modified differential voltage current conveyor transconductance amplifier (MDVCCTA) based meminductor emulator has been proposed. The proposed meminductor is realized using one MDVCCTA, one resistor, and two grounded capacitors that leads to a very simple configuration. The emulator is working for a significant range of frequencies up to 80 MHz. The transient and non-volatility tests are found to be satisfactory. The corner and Monte Carlo analyses are done to verify the robustness of the proposed design. In addition, to assess the endurance of the recommended meminductor emulator, its workability with variations in supply voltage, temperature, and component values has been investigated. The pinched hysteresis loops that are fingerprints for the meminductor emulator are not deformed for any such variations. A comparison of suggested meminductor with those available in literature has been done based on several performance parameters. Two applications that demonstrate the viability of the suggested meminductor emulator have also been comprehended.