Affiliation:
1. Geethanjali College of Engineering and Technology
Abstract
This paper proposes a FINFET (Fin Field Effect Transistor)-based Voltage Difference Transconductance Amplifier (VDTA). This paper aims to provide an amplifier that will enable VDTA to achieve its desired characteristics. The circuit proposed for FINFET-based VDTA operates with a bias current order of 150μA and a source voltage of 0.9V. The active element makes the amplitude electronically tuneable with bias current. The designed circuit was implemented in both GPDK 180nm technology and FINFET technology using the Cadence Virtuoso tool. Various factors, including technology node components and the operating voltage provided by FINFET VDTA structures, are compared. A Monte Carlo simulation is conducted for the suggested circuit, which dissipates 187.53μW of power. In comparison to the standard VDTA, it exhibits notably low power dissipation.
Reference20 articles.
1. Design of a fully differential current mode operational amplifier with improved input–output impedances and its filter applications
2. A new building block for analog signal processing: current follower/inverter buffered transconductance amplifier
3. High-performance current differencing transconductance amplifier and its application in precision current-mode rectification
4. Biolek, D., Senani, R., Biolkova, V., & Kolka, Z. (2008b).
Active elements for analog signal processing:
classification, review, and new proposals. Radio
Engineering, 17(4), 15-32.
5. A novel fully differential current conveyor and applications for analog VLSI