Carbon Nanotubes-Based Digitally Programmable Current Follower

Abstract: The physical constraints of ever-shrinking CMOS transistors are rapidly approaching atomistic and quantum mechanical limits. Therefore, research is now directed towards the development of nanoscale devices that could work efficiently in the sub-10 nm regime. This coupled with the fact that recent design trend for analog signal processing applications is moving towards currentmode circuits which offer lower voltage swings, higher bandwidth, and better signal linearity is the motivation for this work. A digitall… Show more

“…Te major goal is to use CNTFET intrinsic features to improve circuit performance including gain, power efciency, bandwidth, and linearity [13,14]. Te amplifer's properties may be dynamically modifed to accommodate diferent operating needs by including digital tuning mechanisms, signifcantly broadening the area of its use [15][16][17][18]. A carbon nanotube feld efect transistor (CNTFET) has a cross-sectional view as shown in Figure 1.…”

Design and Analysis of Digitally Tunable Transconductance Amplifier (DTTA) Using CNTFETs

“…Te major goal is to use CNTFET intrinsic features to improve circuit performance including gain, power efciency, bandwidth, and linearity [13,14]. Te amplifer's properties may be dynamically modifed to accommodate diferent operating needs by including digital tuning mechanisms, signifcantly broadening the area of its use [15][16][17][18]. A carbon nanotube feld efect transistor (CNTFET) has a cross-sectional view as shown in Figure 1.…”

Design and Analysis of Digitally Tunable Transconductance Amplifier (DTTA) Using CNTFETs

Investigation of CNTFET Based Energy Efficient Fast SRAM Cells for Edge AI Devices

Novel Programmable Readout Amplifier and Potentiostat for Glucose Sensing Applications