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石墨烯场效应管的Verilog-A建模

Verilog-A Model for Graphene Field Effect Transistors
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摘要 在传统硅基器件日益趋近物理极限的背景下,石墨烯场效应管作为一种新型纳米器件受到了广泛关注。以漂移-扩散传输理论为基础,得到了石墨烯场效应管的漏电流解析表达式,并以此建立了适合电路设计的石墨烯场效应管Verilog-A模型。利用该模型对栅长为10μm、沟道宽度为5μm的石墨烯场效应管进行HSPICE仿真,仿真结果与实验所测数据相符。在此基础上,给出了基于石墨烯场效应管的共源放大电路、共漏放大电路和共栅放大电路三种基本电路组态的仿真结果,表明石墨烯场效应管应用于模拟及RF电路具有广阔的前景。 Since conventional silicon-based devices increasingly approach their physical limits, the graphene field effect transistor (GFET) attracts attention widely as a novel nano-scale device. Based on the drift-diffusion theory, an analytic expression of the GFET's drain current was deduced, and the GFET Verilog-A model fitted for the circuit design was constructed. The simulation of the model in HSPICE for an L = 10μm and W= 5μm GFET was carried out, and the simulation results fit the experimental results. Besides that, the simulation results of three basic circuit configurations for the common-source amplifying circuit, common-drain amplifying circuit and common-gate amplifying circuit based on the GFET were given. And the result exhibits GFET's brilliant prospects for analog and RF circuit applications.
出处 《微纳电子技术》 CAS 北大核心 2012年第8期493-497,533,共6页 Micronanoelectronic Technology
基金 国家自然科学基金资助项目(60976067) 高等学校博士点专项科研基金资助项目(20100141120040 20110141120074) 中央高校基本科研武汉大学资助项目(1101001)
关键词 石墨烯场效应管(GFET) 纳米器件 漂移-扩散理论 Verilog—A HSPICE graphene field effect transistor (GFET) nano-scale device drift-diffusion theory Verilog-A HSPICE
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