Interface traps in silicon carbide MOSFETs

C. J. Cochrane; Patrick M. Lenahan; A. J. Lelis

doi:10.1109/IRWS.2008.4796089

Interface traps in silicon carbide MOSFETs

C. J. Cochrane, Patrick M. Lenahan, A. J. Lelis

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Scopus citations

Abstract

In "classical" MOS technology, reliability and performance limiting defects are, as a rule, precisely at the semiconductor/ insulator interface and very near that interface on the dielectric side. In the Si/SiO ₂ system, the dominating defects have typically been silicon dangling bond defects. During the last few years there has been a great deal of interest in "new materials" based MOS technologies. In these new devices, the physical location and chemical nature of performance limiting defects may be very different from the Si/SiO ₂ case. In this study we show that "interface traps" in 4H SiC MOSFETs may be very strongly influenced by the quality of the SiC substrate, with defects in that substrate present at densities which can be comparable to or in excess of the defect densities precisely at the semiconductor/ dielectric interface. Using DCIV and magnetic resonance measurements, we explore the physical location and chemical nature of these performance limiting defects in variously processed SiC MOSFETs.

Original language	English (US)
Title of host publication	2008 IEEE International Integrated Reliability Workshop Final Report, IRW 2008
Pages	68-71
Number of pages	4
DOIs	https://doi.org/10.1109/IRWS.2008.4796089
State	Published - Dec 1 2008
Event	2008 IEEE International Integrated Reliability Workshop, IRW 2008 - South Lake Tahoe, CA, United States Duration: Oct 12 2008 → Oct 16 2008

Publication series

Name	IEEE International Integrated Reliability Workshop Final Report

Other

Other	2008 IEEE International Integrated Reliability Workshop, IRW 2008
Country/Territory	United States
City	South Lake Tahoe, CA
Period	10/12/08 → 10/16/08

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering
Safety, Risk, Reliability and Quality
Electronic, Optical and Magnetic Materials

Access to Document

10.1109/IRWS.2008.4796089

Cite this

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title = "Interface traps in silicon carbide MOSFETs",

abstract = "In {"}classical{"} MOS technology, reliability and performance limiting defects are, as a rule, precisely at the semiconductor/ insulator interface and very near that interface on the dielectric side. In the Si/SiO 2 system, the dominating defects have typically been silicon dangling bond defects. During the last few years there has been a great deal of interest in {"}new materials{"} based MOS technologies. In these new devices, the physical location and chemical nature of performance limiting defects may be very different from the Si/SiO 2 case. In this study we show that {"}interface traps{"} in 4H SiC MOSFETs may be very strongly influenced by the quality of the SiC substrate, with defects in that substrate present at densities which can be comparable to or in excess of the defect densities precisely at the semiconductor/ dielectric interface. Using DCIV and magnetic resonance measurements, we explore the physical location and chemical nature of these performance limiting defects in variously processed SiC MOSFETs.",

author = "Cochrane, {C. J.} and Lenahan, {Patrick M.} and Lelis, {A. J.}",

year = "2008",

month = dec,

day = "1",

doi = "10.1109/IRWS.2008.4796089",

language = "English (US)",

isbn = "9781424421954",

series = "IEEE International Integrated Reliability Workshop Final Report",

pages = "68--71",

booktitle = "2008 IEEE International Integrated Reliability Workshop Final Report, IRW 2008",

note = "2008 IEEE International Integrated Reliability Workshop, IRW 2008 ; Conference date: 12-10-2008 Through 16-10-2008",

}

Cochrane, CJ, Lenahan, PM & Lelis, AJ 2008, Interface traps in silicon carbide MOSFETs. in 2008 IEEE International Integrated Reliability Workshop Final Report, IRW 2008., 4796089, IEEE International Integrated Reliability Workshop Final Report, pp. 68-71, 2008 IEEE International Integrated Reliability Workshop, IRW 2008, South Lake Tahoe, CA, United States, 10/12/08. https://doi.org/10.1109/IRWS.2008.4796089

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T1 - Interface traps in silicon carbide MOSFETs

AU - Cochrane, C. J.

AU - Lenahan, Patrick M.

AU - Lelis, A. J.

PY - 2008/12/1

Y1 - 2008/12/1

N2 - In "classical" MOS technology, reliability and performance limiting defects are, as a rule, precisely at the semiconductor/ insulator interface and very near that interface on the dielectric side. In the Si/SiO 2 system, the dominating defects have typically been silicon dangling bond defects. During the last few years there has been a great deal of interest in "new materials" based MOS technologies. In these new devices, the physical location and chemical nature of performance limiting defects may be very different from the Si/SiO 2 case. In this study we show that "interface traps" in 4H SiC MOSFETs may be very strongly influenced by the quality of the SiC substrate, with defects in that substrate present at densities which can be comparable to or in excess of the defect densities precisely at the semiconductor/ dielectric interface. Using DCIV and magnetic resonance measurements, we explore the physical location and chemical nature of these performance limiting defects in variously processed SiC MOSFETs.

AB - In "classical" MOS technology, reliability and performance limiting defects are, as a rule, precisely at the semiconductor/ insulator interface and very near that interface on the dielectric side. In the Si/SiO 2 system, the dominating defects have typically been silicon dangling bond defects. During the last few years there has been a great deal of interest in "new materials" based MOS technologies. In these new devices, the physical location and chemical nature of performance limiting defects may be very different from the Si/SiO 2 case. In this study we show that "interface traps" in 4H SiC MOSFETs may be very strongly influenced by the quality of the SiC substrate, with defects in that substrate present at densities which can be comparable to or in excess of the defect densities precisely at the semiconductor/ dielectric interface. Using DCIV and magnetic resonance measurements, we explore the physical location and chemical nature of these performance limiting defects in variously processed SiC MOSFETs.

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ER -

Interface traps in silicon carbide MOSFETs

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