Repositório do Conhecimento Institucional do Centro Universitário FEI
 

Engenharia Elétrica

URI permanente desta comunidadehttps://repositorio.fei.edu.br/handle/FEI/21

Navegar

Filtros

2017 - 201922020 - 20228

Configurações

Autor: search.filters.author.COSTA, F. J.

Resultados da Pesquisa

Agora exibindo 1 - 10 de 10
  • N/D
    Artigo de evento 1 Citação(ões) na Scopus
    Ultra-Low-Power Diodes Composed by SOI UTBB Transistors
    (2022-07-04) COSTA, F. J.; TREVISOLI, R.; Rodrigo Doria
    © 2022 IEEE.The main objective of this work is to present an analysis of the performance of Ultra-Thin-Body and Buried Oxide transistors working as Ultra-Low-Power diodes. The implementation of different ground planes and substrate biases are analyzed. It is shown a reduced leakage current and increased ratio between the on and off-state currents for the Ultra-Low-Power diode with the N-substrate biased at -2V. However, this condition results in increased threshold voltage. The ground planes do not provoke a significant change in the leakage current, but a noticeable variation can be observed in the ratio between the on and off-state currents due to the higher threshold voltage in relation to the system without ground plane.
  • N/D
    Artigo de evento 0 Citação(ões) na Scopus
    Standard MOS Diodes Composed by SOI UTBB Transistors
    (2022-08-05) COSTA, F. J.; TREVISOLI, R.; CAPOVILLA, C. E.; Rodrigo Doria
    © 2022 IEEE.The main objective of this work is to present an analysis of the performance of UTBB SOI transistors working as standard diodes, where the implementation of ground planes and substrate bias are analyzed. It is shown a reduced leakage current and increased ratio between the on and off-state currents with the substrate bias at -2 V and with a P-type GP implemented. However, both conditions result in increased threshold voltage.
  • N/D
    Artigo de evento 1 Citação(ões) na Scopus
    SOI UTBB Capacitive Cross-Coupling Effects in Ultimate Technological Nodes
    (2022-03-01) COSTA, F. J.; TREVISOLI, R.; Rodrigo Doria
    © 2022 IEEE.The main objective of this work is to carry out an analysis of the effects of cross-coupling in a system composed of SOI UTBB MOSFETs in ultimate integration nodes through numerical simulations, validated with experimental data from literature. In this analysis, it could be observed that two devices located on the channel length direction provoke a reduced cross-coupling on each other. For devices located at distances below 50 nm, a capacitive parasitic coupling between the devices can be observed along with the thermal coupling effect.
  • N/D
    Artigo de evento 3 Citação(ões) na Scopus
    Analysis of the substrate bias effect on the thermal properties of SOI UTBB transistors
    (2017-08-28) COSTA, F. J.; Marcelo Antonio Pavanello; TREVISOLI, R.; Rodrigo Doria
    This work presents an analysis of the thermal resistance of Ultra-Thin Body and Buried Oxide (UTBB) SOI (Silicon-on-Insulator) MOSFETs (Metal Oxide Semiconductor Field Effect Transistor) under a selected set of back gate biases (Vsub), with and without considering the effect of the ground plane. It has been shown that the thermal resistance increases as the substrate bias is reduced. For negative Vsub, a thicker depletion depth is induced by the back gate, confining the overall current closer to the front gate and increasing its density. A thermal resistance reduction of about 8-9% can be obtained by simply increasing the back bias from -2V up to 2 V.
  • N/D
    Artigo de evento 2 Citação(ões) na Scopus
    Analysis of the substrate effect by the capacitive coupling in SOI UTBB Transistors
    (2019-08-30) COSTA, F. J.; TREVISOLI, R.; Rodrigo Doria
    © 2019 IEEE.The goal of this work is to present the behavior of the substrate effect in Ultra-Thin Body and Buried Oxide (UTBB) SOI MOSFETs with the application of a selected set of back gate biases (VSUB) through DC and AC simulations. A set of different ground planes (GP) arrangements has been considered. It has been shown that the degradation due to the substrate effects increases as the substrate bias is reduced. According to the analysis, it could be observed the GP type influences the capacitive coupling of the structure as the back gate bias is varied. Additionally, it has been shown that the presence of the GP below the source and drain regions contributes significantly to the overall capacitive coupling of the device.
  • N/D
    Artigo de evento 0 Citação(ões) na Scopus
    Analysis of the Thermal Properties of Self-Cascode Structures Composed by UTBB Transistors
    (2020) COSTA, F. J.; TREVISOLI, R.; Michelly De Souza; Rodrigo Doria
    © 2020 IEEE.The focus of this work is to perform an analysis of the thermal properties of the Self-Cascode (SC) structure composed by advanced UTBB SOI MOSFETs under a selected set of back gate biases, through 2D numerical simulations. In this work, it could be observed that the SC structure presents a 50 % lower thermal resistance in comparison with a single device with similar channel length. The application of a back gate bias of 2 V to the drain-sided device or -2 V to the source-sided devices of the SC has shown a decrease of 10-16 % in the thermal resistance.
  • N/D
    Artigo 6 Citação(ões) na Scopus
    Thermal cross-coupling effects in side-by-side UTBB-FDSOI transistors
    (2021-11-05) COSTA, F. J.; TREVISOLI, R.; Rodrigo Doria
    © 2021 Elsevier LtdThe focus of this work is to perform a first-time analysis of the thermal cross-coupling of a device on a neighbor one in advanced UTBB transistors through 3D numerical simulations, validated with experimental data from the literature. In this work, it could be observed that the temperature rise due to a self-heated device can affect the performance of a neighbor one according to the distance between them and to the bias conditions. By varying the distance of the devices from 1 µm to 50 nm, it is shown an influence of the temperature rise due to a self-heated device in threshold voltage, subthreshold swing and in the maximum transconductance as well an increase in the thermal resistance of a neighbor device.
  • N/D
    Artigo 4 Citação(ões) na Scopus
    Influence of interface traps density and temperature variation on the NBTI effect in p-Type junctionless nanowire transistors
    (2021-12-05) GRAZIANO, N.; COSTA, F. J.; TREVISOLI, R.; BARRAUD, S.; Rodrigo Doria
    © 2021 Elsevier LtdThis paper deals with the behavior of degradation by NBTI effect in pMOS junctionless nanowire transistors (JNTs). The analysis has been performed through measurements followed by 3D numerical simulations and has shown that the increase in the oxygen precursors density close to the interface leads to the reduction of the saturation in the NBTI effect when the devices operate in partial depletion regime. Such effect can be associated to the change in the flatband voltage to more negative values as well as the threshold voltage with the increase in the precursor density. In the sequence of the work, it was shown that, as the operation temperature rises, there is an increase in the degradation of the threshold voltage due to NBTI, which is more pronounced for larger gate voltages. It was concluded that this effect could be associated to the increase in the recombination rate with the temperature, which enables the occupation of a larger amount of traps.
  • Imagem de Miniatura
    Artigo 5 Citação(ões) na Scopus
    UTBB MOSFETs Thermal Coupling Analysis in Technological Node Level
    (2020-07-31) COSTA, F. J.; DORIA, R. T.; Rodrigo Trevisoli Doria
    The main goal of this work is to perform a first-time analysis of the thermal cross-coupling in a system composed by some devices in an integration node degree composed by advanced UTBB SOI MOSFETs through numerical simulations, validated with experimental data from the literature. In this analysis, it could be observed that devices located on the channel length direction provoke a reduced thermal coupling and devices with their drain region next to each other suffer of an increased thermal coupling due to the lumped thermal energy. It also could be observed a degradation in some electrical parameters and in the thermal properties of a device under the influence of surrounded devices biased.
  • Imagem de Miniatura
    Artigo 2 Citação(ões) na Scopus
    Substrate Effect Evaluation by the Analysis of Intrinsic Capacitances in SOI UTBB Transistors
    (2020-05-26) COSTA, F. J.; DORIA, R. T.; Rodrigo Trevisoli Doria
    The main goal of this paper is to present the behavior of the substrate effect in Ultra-Thin Body and Buried Oxide (UTBB) SOI MOSFETs with respect to the back gate bias (VSUB) through DC and AC simulations validated to experimental data. Different ground plane (GP) arrangements have been considered in order to enhance the analysis. It has been shown that the substrate effect is strongly influenced by the reduction of the back gate bias and, that the capacitive coupling of the structure presents a different behavior with respect of each kind of GP configuration as the back gate bias is varied. Finally, it has been shown that the GP below the source and drain regions contributes significantly to the overall capacitive coupling of the transistors.