Engenharia Elétrica
URI permanente desta comunidadehttps://repositorio.fei.edu.br/handle/FEI/21
Navegar
2 resultados
Resultados da Pesquisa
Artigo 17 Citação(ões) na Scopus Analog operation temperature dependence of nMOS junctionless transistors focusing on harmonic distortion(2011-09-05) Rodrigo Doria; Marcelo Antonio Pavanello; TREVISOLI, R. D.; Michelly De Souza; LEE, C.-W.; FERAIN, I.; AKHAVAN, N. D.; YAN, R.; RAZAVI, P.; YU, R.; FRANTI, A.; COLINGE, J-P.This paper performs a comparative study of the analog performance of Junctionless Nanowire Transistors (JNTs) and classical Trigate inversion mode (IM) devices focusing on the harmonic distortion. The study has been carried out in the temperature range of 223 K up to 473 K. The non-linearity or harmonic distortion (HD) has been evaluated in terms of the total and the third order distortions (THD and HD3, respectively) at a fixed input bias and at a targeted output swing. Several parameters important for the HD evaluation have also been observed such as the transconductance to the drain current ratio (gm/IDS), the Early voltage (VEA) and the intrinsic voltage gain (AV). Trigate devices showed maximum AV around room temperature whereas in JNTs the intrinsic voltage gain increases with the temperature. Due to the different AV characteristics, Junctionless transistors present improved HD at higher temperatures whereas inversion mode Trigate devices show better HD properties at room temperature.When both devices are compared, Junctionless transistors present better THD and HD3 with respect to the IM Trigate devices.Artigo 54 Citação(ões) na Scopus Impact of the series resistance in the I-V characteristics of junctionless nanowire transistors and its dependence on the temperature(2012-01-05) Rodrigo Doria; TREVISOLI, R. D.; Michelly De Souza; Marcelo Antonio PavanelloThe effect of the source/drain parasitic resistance (R S) on the I-V characteristics of Junctionless Nanowire Transistors (JNTs) has been evaluated through experimental and simulated data. The impact of several parameters such as the temperature, the fin width, the total doping concentration, the source/drain length and the source/drain doping concentration on R S has been addressed. The source/drain parasitic resistance presented by JNTs was compared to the one presented by classical inversion mode (IM) triple gate devices, showing opposite behavior with the temperature variation in IM triple transistors and JNTs. In the latter, a reduction on R S is noted with the temperature increase, which is related to the incomplete ionization. This effect inhibits the presence of a Zero Temperature Coefficient (ZTC) operation bias in the Junctionless devices.