Title :
New tunnel-FET architecture with enhanced ION and improved Miller Effect for energy efficient switching
Author :
Biswas, Arnab ; Alper, Cem ; De Michielis, Luca ; Ionescu, Adrian M.
Author_Institution :
Nanoelectron. Devices Lab. (NANOLAB), Ecole Polytech. Fed. de Lausanne, Lausanne, Switzerland
Abstract :
Tunneling Field Effect Transistors (TFET) are promising devices to respond to the demanding requirements of future technology nodes. The benefits of the TFETs are linked to their sub-60mV/decade sub-threshold swing, a prerequisite for scaling the supply voltage well below 1V. Main research efforts are currently dedicated to improving the on current (ION) level in a TFET. However, from the circuit point of view the device capacitances are equally important. It is known that the drain-to-gate capacitance in a TFET is almost equal to the gate capacitance in moderate and strong inversion regimes. Due to enhanced Miller Effect, they are known to exhibit large over/undershoot in transient operation as compared to CMOS. Therefore, the effort on improving ION should be simultaneous to an effort of reducing the Miller capacitance (CMILLER). This work proposes a new architecture which addresses both these issues.
Keywords :
field effect transistors; tunnel transistors; CMOS process; Miller capacitance; Miller effect; TFET; drain-to-gate capacitance; energy efficient switching; on current level; subthreshold swing; tunnel-FET architecture; tunneling field effect transistors; CMOS integrated circuits; Capacitance; Inverters; Logic gates; Semiconductor process modeling; Switching circuits; Tunneling;
Conference_Titel :
Device Research Conference (DRC), 2012 70th Annual
Conference_Location :
University Park, TX
Print_ISBN :
978-1-4673-1163-2
DOI :
10.1109/DRC.2012.6256999
