Engenharia Elétrica
URI permanente desta comunidadehttps://repositorio.fei.edu.br/handle/FEI/21
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5 resultados
Resultados da Pesquisa
- Physical characterization and reliability aspects of MuGFETs(2007-09-06) CLAEYS, C.; SIMOEN, E.; RAFI, J. M.; Marcelo Antonio Pavanello; MARTINO, J. A.Multi-gate devices are explicitly mentioned in the ITRS roadmap and have a good potential for scaling to the 32 nm and below technology nodes. Worldwide much attention is given to FinFET and MuGFET device architectures. This paper reviews some physical characterization and reliability aspects of such devices. Attention is given to aspects such as transient floating body effects, their performance at both high and low temperatures, gate coupling effects and their low frequency noise behavior. In addition, their potential radiation hardness in view of space applications is outlined. © The Electrochemical Society.
- Influence of the N-type FinFET width on the zero temperature coefficient(2007-09-07) BELLODI, M.; MARTINO, J. A.; CAMILO, L. M.; SIMOEN, E.; CLAEYS, C.This paper presents the influence of the Fin width dimension on the Zero Temperature Coefficient (ZTC) behavior for devices operating at high temperatures (from room temperature up to 573K). Besides this, a simple analytical model is presented in order to describe the ZTC behavior as the temperature increases. Three-dimensional simulations are carried out and compared with experimental results to support the interpretation presented along this work. © The Electrochemical Society.
- Simple analytical model to study the ZTC bias point in FinFETs(2007-05-11) BELLODI, M.; CAMILLO, L. M.; MARTINO, J. A.; SIMOEN, E.; CLAEYS, C.In this work we present a simple analytical model to study the Zero Temperature Coefficient (ZTC) bias point in FinFETs operating from room temperature up to 573 K. Three-dimensional simulations are carried out and compared with experimental results to qualify the results. © The Electrochemical Society.
- Low temperature operation of undoped body triple-gate FinFETs from an analog perspective(2007-09-06) Marcelo Antonio Pavanello; MARTINO, J. A.; SIMOEN, E.; ROOYACKERS R.; COLLAERT, N.; CLAEYS, CThis paper studies the temperature reduction influence on some analog figures of merit of n-type triple-gate FinFETs with undoped body, using DC measurements. It is demonstrated that the temperature reduction improves the transconductance over drain current ratio in any operational region. On the other hand, the output conductance is degraded when the temperature is reduced. The combination of these effects shows that the intrinsic gain of a L=90 nm FinFET is degraded by 3 dB when the temperature reduces from 300 K down to 100 K. A comparison with planar single gate fully depleted SOI reveals that the temperature degradation of the output conductance in FinFETs is less temperature-dependent. © The Electrochemical Society.
- Temperature influences on FinFETs with undoped body(2007-05-11) Marcelo Antonio Pavanello; MARTINO J. A.; SIMOEN, E.; ROOYACKERS, R.; COLLAERT, N.; CLAEYS, C.This work presents a study, based on DC measurements, of the temperature influence on the performance of nMOS triple-gate FinFETs with high-κdielectrics, TiN gate material and an undoped body. FinFETs show smaller threshold voltage variations with temperature than planar fully-depleted SOI MOSFETs. The subthreshold slope reduced with the temperature and approached the ideal value at lower temperatures In the temperature range under study the mobility increases linearly as the temperature is reduced and the dominating mobility degradation factor is phonon scattering. The DIBL has been evaluated and no temperature dependence has been found. Finally, the series resistance has been also extracted and demonstrates a reduction as the temperature is reduced due to the mobility improvement. © The Electrochemical Society.