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Heavy-Ion Microbeam Studies of Single-Event Leakage Current Mechanism in SiC VD-MOSFETs
Heavy-ion microbeams are employed for probing the radiation-sensitive regions in commercial silicon carbide (SiC) vertical double-diffused power (VD)-MOSFETs with micrometer accuracy. By scanning the beam spot over the die, a spatial periodicity was observed in the leakage current degradation, refle...
| Autores principales: | , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2020
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1109/tns.2020.3002729 http://cds.cern.ch/record/2727539 |
| _version_ | 1780966352820895744 |
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| author | Martinella, C Ziemann, T Stark, R Tsibizov, A Voss, K O Alia, R G Kadi, Y Grossner, U Javanainen, A |
| author_facet | Martinella, C Ziemann, T Stark, R Tsibizov, A Voss, K O Alia, R G Kadi, Y Grossner, U Javanainen, A |
| author_sort | Martinella, C |
| collection | CERN |
| description | Heavy-ion microbeams are employed for probing
the radiation-sensitive regions in commercial silicon carbide (SiC)
vertical double-diffused power (VD)-MOSFETs with micrometer
accuracy. By scanning the beam spot over the die, a spatial
periodicity was observed in the leakage current degradation,
reflecting the striped structure of the power MOSFET investigated. Two different mechanisms were observed for degradation.
At low drain bias (gate and source grounded), only the gate-oxide
(at the JFET or neck region) is contributing in the ion-induced
leakage current. For exposures at drain–source bias voltages
higher than a specific threshold, additional higher drain leakage
current is observed in the p-n junction region. This provides
useful insights into the understanding of basic phenomena of
single-event effects in SiC power devices. |
| id | oai-inspirehep.net-1810107 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2020 |
| record_format | invenio |
| spelling | oai-inspirehep.net-18101072020-08-10T09:10:19Zdoi:10.1109/tns.2020.3002729http://cds.cern.ch/record/2727539engMartinella, CZiemann, TStark, RTsibizov, AVoss, K OAlia, R GKadi, YGrossner, UJavanainen, AHeavy-Ion Microbeam Studies of Single-Event Leakage Current Mechanism in SiC VD-MOSFETsNuclear Physics - ExperimentHeavy-ion microbeams are employed for probing the radiation-sensitive regions in commercial silicon carbide (SiC) vertical double-diffused power (VD)-MOSFETs with micrometer accuracy. By scanning the beam spot over the die, a spatial periodicity was observed in the leakage current degradation, reflecting the striped structure of the power MOSFET investigated. Two different mechanisms were observed for degradation. At low drain bias (gate and source grounded), only the gate-oxide (at the JFET or neck region) is contributing in the ion-induced leakage current. For exposures at drain–source bias voltages higher than a specific threshold, additional higher drain leakage current is observed in the p-n junction region. This provides useful insights into the understanding of basic phenomena of single-event effects in SiC power devices.oai:inspirehep.net:18101072020 |
| spellingShingle | Nuclear Physics - Experiment Martinella, C Ziemann, T Stark, R Tsibizov, A Voss, K O Alia, R G Kadi, Y Grossner, U Javanainen, A Heavy-Ion Microbeam Studies of Single-Event Leakage Current Mechanism in SiC VD-MOSFETs |
| title | Heavy-Ion Microbeam Studies of Single-Event Leakage Current Mechanism in SiC VD-MOSFETs |
| title_full | Heavy-Ion Microbeam Studies of Single-Event Leakage Current Mechanism in SiC VD-MOSFETs |
| title_fullStr | Heavy-Ion Microbeam Studies of Single-Event Leakage Current Mechanism in SiC VD-MOSFETs |
| title_full_unstemmed | Heavy-Ion Microbeam Studies of Single-Event Leakage Current Mechanism in SiC VD-MOSFETs |
| title_short | Heavy-Ion Microbeam Studies of Single-Event Leakage Current Mechanism in SiC VD-MOSFETs |
| title_sort | heavy-ion microbeam studies of single-event leakage current mechanism in sic vd-mosfets |
| topic | Nuclear Physics - Experiment |
| url | https://dx.doi.org/10.1109/tns.2020.3002729 http://cds.cern.ch/record/2727539 |
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