Engenharia Elétrica
URI permanente desta comunidadehttps://repositorio.fei.edu.br/handle/FEI/21
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3 resultados
Resultados da Pesquisa
- Surface-potential-based drain current analytical model for triple-gate junctionless nanowire transistors(2012-01-05) TREVISOLI, R. D.; Rodrido Doria; Michelly De Souza; DAS, S.; FERAIN, I.; Marcelo Antonio PavanelloThis paper proposes a drain current model for triple-gate n-type junctionless nanowire transistors. The model is based on the solution of the Poisson equation. First, the 2-D Poisson equation is used to obtain the effective surface potential for long-channel devices, which is used to calculate the charge density along the channel and the drain current. The solution of the 3-D Laplace equation is added to the 2-D model in order to account for the short-channel effects. The proposed model is validated using 3-D TCAD simulations where the drain current and its derivatives, the potential, and the charge density have been compared, showing a good agreement for all parameters. Experimental data of short-channel devices down to 30 nm at different temperatures have been also used to validate the model. © 2012 IEEE.
- Substrate bias influence on the operation of junctionless nanowire transistors(2014) Trevisoli R.; Doria R.T.; De Souza M.; Pavanello M.A.The aim of this paper is to analyze the substrate bias influence on the operation of junctionless nanowire transistors based on 3-D simulated and experimental results, accomplished by modeled data. The threshold voltage, the maximum transconductance, the subthreshold slope, the drain-induced barrier lowering (DIBL), and the ION/IOFF ratio are the key parameters under analysis. It has been shown that the negative back bias can reduce the short-channel effects occurrence, improving the ION/ OFF ratio and DIBL. © 1963-2012 IEEE.
- Analytical model for the dynamic behavior of triple-gate junctionless nanowire transistors(2016) Trevisoli R.; Doria R.T.; De Souza M.; Barraud S.; Vinet M.; Pavanello M.A.© 2015 IEEE.This paper presents an analytical model for the intrinsic capacitances and transconductances of triple-gate junctionless nanowire transistors. The model is based on a surface-potential drain current model, which includes shortchannel effects, and accounts for the dependences on the device dimensions, doping concentration, and quantum effects. It is validated with 3-D Technology Computer-Aided Design (TCAD) simulations for several device characteristics and biases as well as with the experimental results.