TID and displacement damage effects in vertical and lateral power MOSFETs for integrated DC-DC converters

Federico Faccio; B. Allongue; G. Blanchot; C. Fuentes; S. Michelis; S. Orlandi; R. Sorge

doi:10.1109/TNS.2010.2049584

TID and displacement damage effects in vertical and lateral power MOSFETs for integrated DC-DC converters

Federico Faccio
, B. Allongue
, G. Blanchot
, C. Fuentes
, S. Michelis
, S. Orlandi
, R. Sorge

Research output: Contribution to journal › Article › peer-review

60 Scopus citations

Abstract

TID and displacement damage effects are studied for vertical and lateral power MOSFETs in five different technologies in view of the development of radiation-tolerant fully integrated DC-DC converters. Investigation is pushed to the very high level of radiation expected for an upgrade to the LHC experiments. TID induces threshold voltage shifts and, in n-channel transistors, source-drain leakage currents. Wide variability in the magnitude of these effects is observed. Displacement damage increases the on-resistance of both vertical and lateral high-voltage transistors. In the latter case, degradation at high particle fluence might lead to a distortion of the output characteristics curve. HBD techniques to limit or eliminate the radiation-induced leakage currents are successfully applied to these high-voltage transistors, but have to be used carefully to avoid consequences on the breakdown voltage.

Original language	English
Article number	5550488
Pages (from-to)	1790-1797
Number of pages	8
Journal	IEEE Transactions on Nuclear Science
Volume	57
Issue number	4 PART 1
DOIs	https://doi.org/10.1109/TNS.2010.2049584
State	Published - Aug 2010
Externally published	Yes

Keywords

DC-DC converter
LDMOS
displacement damage
radiation effects

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10.1109/TNS.2010.2049584

Cite this

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title = "TID and displacement damage effects in vertical and lateral power MOSFETs for integrated DC-DC converters",

abstract = "TID and displacement damage effects are studied for vertical and lateral power MOSFETs in five different technologies in view of the development of radiation-tolerant fully integrated DC-DC converters. Investigation is pushed to the very high level of radiation expected for an upgrade to the LHC experiments. TID induces threshold voltage shifts and, in n-channel transistors, source-drain leakage currents. Wide variability in the magnitude of these effects is observed. Displacement damage increases the on-resistance of both vertical and lateral high-voltage transistors. In the latter case, degradation at high particle fluence might lead to a distortion of the output characteristics curve. HBD techniques to limit or eliminate the radiation-induced leakage currents are successfully applied to these high-voltage transistors, but have to be used carefully to avoid consequences on the breakdown voltage.",

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AU - Faccio, Federico

AU - Allongue, B.

AU - Blanchot, G.

AU - Fuentes, C.

AU - Michelis, S.

AU - Orlandi, S.

AU - Sorge, R.

PY - 2010/8

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KW - LDMOS

KW - displacement damage

KW - radiation effects

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TID and displacement damage effects in vertical and lateral power MOSFETs for integrated DC-DC converters

Abstract

Keywords

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