Engenharia Elétrica
URI permanente desta comunidadehttps://repositorio.fei.edu.br/handle/FEI/21
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5 resultados
Resultados da Pesquisa
- Intrinsic gate capacitances of n-type junctionless nanowire transistors using a three-dimensional device simulation and experimental measurements(2012-09-02) MARINIELLO, G.; Rodrido Doria; TREVISOLI, R. D.; Michelly De Souza; Marcelo Antonio PavanelloJunctionless Nanowire transistors have been recently proposed as an alternative to overcome the short channel effect caused by the reduction of the transistors dimensions. These devices behave like a gated resistor due to the lack of the p-n junctions in the channel/ source and channel/drain regions. The influence of doping concentration, silicon width, silicon height and gate oxide thickness on the intrinsic gate capacitances are presented in this paper by using three-dimensional numerical simulations and experimental results of fabricated devices. Also the influence of the applied drain bias in the components of the intrinsic gate capacitances is addressed. © The Electrochemical Society.
- Comparative study of biaxial and uniaxial mechanical stress influence on the low frequency noise of fully depleted SOI nMOSFETs operating in triode and saturation regime(2012-09-02) DE SOUZA, M. A. S.; Rodrido Doria; Michelly De Souza; MARTINO, J. A.; Marcelo Antonio PavanelloThis paper presents an experimental comparative study of uniaxial and biaxial strain techniques influence on the low frequency noise of planar fully depleted SOI nMOSFETs operating in linear and saturation regimes. The comparison between devices from the same technology with these two strained techniques demonstrated a reduction of low frequency noise for devices with both strain technologies in linear regime for shorter devices (below 410 nm). In saturation regime the reduction of low frequency noise for uniaxial and biaxial strain also occurs, but does not depend on the channel length, and the reduction of low frequency noise in favor of both strain technologies is more pronounced for channel length of 160 nm. © The Electrochemical Society.
- Application of junctionless nanowire transistor in the self-cascode configuration to improve the analog performance(2012-09-02) Rodrido Doria; TREVISOLI, R. D.; Michelly De Souza; Marcelo Antonio PavanelloThe self-cascode (SC) configuration consists in a series association of two transistors with tied gates usually applied to improve the analog performance of MOS devices. This paper compares the analog parameters of single Junctionless transistors with the ones presented by self-cascode associations composed by two Junctionless devices with identical or different fin widths (symmetric and asymmetric, respectively). The transconductance to the drain current ratio, the Early voltage (VEA) and the intrinsic voltage gain (AV) have been evaluated for both single devices and SC structures. It has been shown that the SC configurations, specially the asymmetric ones, present a strong reduction of the drain conductance (gD) with respect to single devices, resulting in an increase of VEA and AV, which can be higher than 30 dB depending on the bias conditions. © The Electrochemical Society.
- Accounting for short channel effects in the drain current modeling of junctionless nanowire transistors(2012-09-02) TREVISOLI, R. D.; Rodrido Doria; Michelly De Souza; Marcelo Antonio PavanelloJunctionless nanowire transistors have a constant doping profile from source to drain, providing a great scalability without the need of rigorously controlled doping gradients and activation techniques. Therefore, these devices are considered as promising for decananometer era. This work proposes an analytical model for the drain current in junctionless nanowire transistor (JNT) accounting for short channel effects and temperature dependence. Tridimensional numerical simulations of p-type devices have been performed to validate the model. Experimental data of n-type devices have also been used. © The Electrochemical Society.
- Influence of 45° Substrate Rotation on the Analog Performance of Biaxially Strained-Silicon SOI MuGFETs(2013-05-16) DE SOUZA, M. A. S.; Rodrido Doria; MARTINO, J. A.; SIMOEN, E.; CLAEYS, C.; Marcelo Antonio PavanelloIn this work the influence of the substrate rotation on the analog performance of strained SOI MuGFETs is presented. Measurements performed in fabricated devices show a degradation of the maximum transconductance at both linear and saturation regime. The substrate rotation has no influence on the output conductance. The intrinsic voltage gain and the unit gain frequency were extracted and presented a reduction promoted by substrate rotation, being more evident for a narrow fin. © The Electrochemical Society.