Performance of common-source, Cascode and Wilson current mirrors implemented with graded-channel SOI nMOSFETs in a wide temperature range
N/D
Tipo de produção
Artigo de evento
Data de publicação
2009-05-29
Texto completo (DOI)
Periódico
ECS Transactions
Editor
Texto completo na Scopus
Citações na Scopus
3
Autores
Michelly De Souza
FLANDRE, D.
Marcelo Antonio Pavanello
Orientadores
Resumo
This work presents an experimental comparative analysis of the behavior of current mirrors implemented with standard uniformly doped and Graded-Channel (GC) SOI nMOSFETs as a function of the temperature. Three different current mirror architectures were used, Common-source, Wilson and Cascode. The experimental results show that the use of Graded-Channel transistors promotes not only the increase of the output swing, but also the increase of the output resistance in all evaluated architectures, in comparison to the standard uniformly doped counterpart. Despite some degradation observed with the temperature reduction, current mirrors with GC transistors still present better performance than those implemented with standard SOI transistors. ©The Electrochemical Society.
Citação
DE SOUZA, M.; FLANDRE, D.; PAVANELLO, M. A. Performance of common-source, Cascode and Wilson current mirrors implemented with graded-channel SOI nMOSFETs in a wide temperature range. ECS Transactions, v. 19, n. 4, p. 265-270, 2009.
Palavras-chave
Keywords
Assuntos Scopus
Cascode; Channel transistors; Comparative analysis; Current mirrors; Output resistance; Output swing; SOI n-MOSFETs; SOI transistors; Temperature range; Temperature reduction; Wilson current