Abstract

Compared to single-gate CNTFET, dual-gate structures have better electrostatic control over nanowire conductive channels. However, currently, there is insufficient research on the back-gate effect in a compact model of dual-gate CNTFET. This paper presents an improved dual-gate carbon nanotube field effect transistor (CNTFET) compact model. The functional relationship between the back-gate voltage (Vbg) and threshold voltage (Vth) is derived. And a voltage reference regulation mechanism is adopted so that the back-gate effect can be accurately reflected in the DC transfer characteristics. The influence of gate voltage and drain voltage on transmission probability is analyzed. Meanwhile, the drain current is optimized by modifying the mobility equation. This compact model is built based on Verilog-A hardware language and supports the Hspice simulation tool. Within the supply voltage of 2 V, the simulation results of the proposed compact model are in good agreement with the measurement results. Finally, based on the compact model, an operational amplifier is designed to verify its correctness and feasibility in analog integrated circuits. When the power supply voltage is 1.8 V, and the load capacitance is 2 pF, the gain is 11.8 dB, and the unit-gain-bandwidth (UGB) is 214 kHz, which proves the efficiency of our compact model.

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