A novel memristor emulator design and universal biquad filter application using second generation high swing differential current conveyor transconductance amplifier in 130 nm CMOS process

Abstract

Memristors have drawn a significant wide spread attention from the research community since past decade due to their high-speed operational potential in analog applications. However, it has been difficult to achieve the memristor behavior directly from solid state solution and state of the art. This work presents a novel emulator design to mimic the memristor behavior. A generic and simple emulator circuit for a voltage controlled memristor is presented using a differential difference current conveyor transconductance amplifier (DDCCTA), which is based on a versatile second-generation current conveyor methodology. A high-swing (up to ±600 mA at the output) and low power implementation design effort for DDCCTA is kept in 130 nm RF-CMOS process with dual power supply mode. The functional simulations have been performed in SPICE environment using Advanced Design System (Keysight Technology), which showed a good alignment to the memristor emulator’s I-V characteristic at 1 KHz and 10 KHz. Proposed DDCCTA then implements the memristor operation with compatible specifications. Finally, the memristor operation and potential has been verified by its application in high-speed active filter operations. A universal biquad section has been presented which employs the designed memristor emulator, with 30 mW of power dissipation with ±1.5 V supply.