Silicon Nanowire Tunnel-FET Differential Amplifier Using Verilog-A Lookup Table Approach

Abstract

Electrical characterization of a silicon nanowire Tunnel Field Effect Transistor (TFET) is used to construct a lookup table in order to model and simulate analog circuit through Verilog-A approach. The performance of a differential amplifier with current mirror load is evaluated using the TFET lookup table model and the TSMC 130 nm CMOS process design kit. Both circuits are evaluated in two different bias, with the TFET circuit presenting 20 dB higher voltage gain and power consumption of at least three orders of magnitude smaller than CMOS technology. All the simulations were realized with Cadence Spectre software.