Artigos
URI permanente para esta coleçãohttps://repositorio.fei.edu.br/handle/FEI/798
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- Impact of series resistance on the drain current variability in inversion mode and junctionless nanowire transistors(2023-10-05) SILVA, L. M. B. DA; Marcelo Antonio Pavanello; CASSÉ, M.; BARRAUD, S.; VINET, M.; FAYNOT, O.; Michelly De Souza© 2023 Elsevier LtdThis work analyzes the influence of source-drain series resistance variability over the drain current in junctionless and inversion mode nanowire transistors. A comparison between drain current and Y-function variability is presented using experimental data of nanowires with different widths and channel lengths. The source-drain series resistance variability is also presented. The results indicates that source-drain series resistance influence is higher on drain current variability for junctionless than inversion mode nanowire transistors.
- Analog characteristics of n-type vertically stacked nanowires(2021) MARINIELLO, G.; CARVALHO, C. A. B. D.; CARDOSO, PAZ, B.; BARRAUD, S.; VINET, M.; FAYNOT, O.; Marcelo Antonio Pavanello© 2021This paper presents the fundamental analog figures of merit, such as the transconductance, output conductance, transconductance over drain current ratio, intrinsic voltage gain and harmonic distortion (or non-linearity), of n-type vertically stacked nanowires with variable fin width and channel length. To have a physical insight on the results, the basic electrical parameters such as threshold voltage, subthreshold slope and low field electron mobility of the analyzed transistors were also studied. The studied analog parameters are presented in function of the transconductance over drain current, to allow for the comparison at the same inversion level.
- A simple current model for edgeless SOI nMOSFET and a 3-D analysis(2005) Giacomini R.; Martino J.A.This work presents a new approach for the current model of thin-film, fully depleted SOI edgeless transistors, based on the asymmetric trapezoidal gate model. The most common current model for an edgeless transistor is obtained by taking the rectangular device drain current expression and substituting the device width by an "equivalent" device width, usually given by the average between source and drain width of the channel. However, this model does not take into account some effects that take place near the corners of the device and that have a significant influence on the current expression. The new model is tested using three-dimensional numerical simulation and experimental data. The proposed model is still simple and both simulation and experimental results show that it presents an improved performance. © 2005 Elsevier Ltd. All rights reserved.
- Advantages of graded-channel SOI nMOSFETs for application as source-follower analog buffer(2008) de Souza M.; Flandre D.; Pavanello M.A.In this work the performance of graded-channel (GC) SOI MOSFETs operating as source-follower buffers is presented. The experimental analysis is performed by comparing the gain and linearity of buffers implemented with GC and standard SOI MOS devices considering the same mask dimensions. It is shown that by using GC devices, buffer gain very close to the theoretical limit can be achieved, with improved linearity, while for standard devices the gain departs from the theoretical value depending on the inversion level imposed by the bias current and input voltage. Two-dimensional numerical simulations were performed in order to confirm some hypotheses proposed to explain the gain behavior observed in the experimental data. By using numerical simulations the channel length has been varied, showing that the gain of buffers implemented with GC devices remains close to the theoretical limit even when short-channel devices are adopted. It has also been shown that the length of a source-follower buffer using GC devices can be reduced by a factor of 5, in comparison with a standard SOI MOSFET, without gain loss or linearity degradation. © 2008 Elsevier Ltd. All rights reserved.