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Modeling of DMOS subjected to fast temperature cycle stress and improvement by a novel metallization concept

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5 Author(s)

Smorodin, T. ; Infineon Technol. AG, Munich ; Wilde, J. ; Nelle, P. ; Lilleodden, E.
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DMOS switches are subjected to severe temperature pulses during operation, which cause a thermomechanical stress and ILD cracking. The failure evolution under fast temperature cycle stress is assessed with FEM simulation. Based on these findings a novel metallization system is introduced, which extends the lifetime by three orders of magnitude.

Published in:
Reliability Physics Symposium, 2008. IRPS 2008. IEEE International

Date of Conference: April 27 2008-May 1 2008

Page(s):: 689 - 690
E-ISBN :: 978-1-4244-2050-6
Print ISBN:: 978-1-4244-2049-0
INSPEC Accession Number:: 10074374

Conference Location :: Phoenix, AZ
Digital Object Identifier :: 10.1109/RELPHY.2008.4558990
Product Type:: Conference Publications

Author(s)

Smorodin, T.
Infineon Technol. AG, Munich
Wilde, J. ; Nelle, P. ; Lilleodden, E. ; Stecher, M.

INSPEC: CONTROLLED INDEXING

MOS integrated circuits

finite element analysis

metallisation

switches

thermomechanical treatment

INSPEC: NON CONTROLLED INDEXING

DMOS switches

FEM simulation

ILD cracking

failure evolution

interlayer dielectric

novel metallization concept

temperature cycle stress

thermomechanical stress

AUTHOR KEYWORDS

DMOS

ILD cracking

electrothermal cycling

metallization

repetitive clamping

viscoplastic deformation

IEEE TERMS

Aluminum

Circuit simulation

Electrothermal effects

Failure analysis

Metallization

Plastics

Switches

Temperature distribution

Thermal stresses

Thermomechanical processes

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