Compact Modeling of Carbon Nanotube Thin Film Transistors for Flexible Circuit Design

Carbon nanotube thin film transistor (CNT-TFT) is a promising candidate for flexible electronics, because of its high carrier mobility and great mechanical flexibility. An accurate and trustworthy device model for CNT-TFTs, however, is still missing. In this paper, we present a SPICE-compatible compact model for CNT-TFT circuit simulation and validate the proposed model based on fabricated CNT-TFTs and Pseudo-CMOS circuits [1][2]. The proposed CNT-TFT model enables circuit designers to explore design space by adjusting device parameters, supply voltages and transistor sizes to optimize the noise margin (NM) and power-delay product (PDP), which are the key merits for larger scale CNT-TFT circuits. We further propose a design framework to effectively optimize the NM and PDP to facilitate greater automation of flexible circuit design based on CNT-TFTs.