Comparative study of the proton beam effects between the conventional and Circular-Gate MOSFETs
N/D
Tipo de produção
Artigo de evento
Data de publicação
2012
Texto completo (DOI)
Periódico
Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms
Editor
Texto completo na Scopus
Citações na Scopus
3
Autores
Cirne K.
Silveira M.A.G.
Santos R.B.B.
Gimenez S.P.
Barbosa M.D.L.
Tabacniks M.H.
Added N.
Medina N.H.
De Melo W.R.
Seixas Jr. L.E.
Orientadores
Resumo
The study of ionizing radiation effects on semiconductor devices is of great relevance for the global technological development and is a necessity in some strategic areas in Brazil. This work presents preliminary results of radiation effects in MOSFETs that were exposed to 3.2 Grad radiation dose produced by a 2.6-MeV proton beam. The focus of this work was to electrically characterize a Rectangular-Gate MOSFET (RGT) and a Circular-Gate MOSFET (CGT), manufactured with the On Semiconductor 0.5 μm standard CMOS fabrication process and to verify a suitable geometry for space applications. During the experiment, I DS × V GS curves were measured. After irradiation, the RGT off-state current (I OFF) increased approximately two orders of magnitude reaching practically the same value of the I OFF in the CGT, which only doubled its value. © 2011 Elsevier B.V. All rights reserved.
Citação
Cirne, K.; Seixas, L.E.; de Lima, J.A.; Silveira, M.A.G.; Santos, R.B.B.; Gimenez, S.P.; Barbosa, M.D.L.; Tabacniks, M.H.; ADDED, N.; Medina, N.H.; De Melo, W.R.. Comparative study of the proton beam effects between the conventional and Circular-Gate MOSFETs. Nuclear Instruments & Methods in Physics Research. Section B, Beam Interactions with Materials and Atoms (Print), v. 273, p. 80-82, 2012.
Palavras-chave
Keywords
Circular-Gate MOSFET; External proton beam; Integrated circuits; Radiation effects; Radiation hardening; Rectangular-Gate MOSFET; Total Ionizing Dose (TID)
Assuntos Scopus
Comparative studies; MOS-FET; MOSFETs; Off-state current; Orders of magnitude; Radiation dose; Standard CMOS; Technological development; Total ionizing dose