Unifying Concepts for Ion-Induced Leakage Current Degradation in Silicon Carbide Schottky Power Diodes

Unifying Concepts for Ion-Induced Leakage Current Degradation in Silicon Carbide Schottky Power Diodes

The onset of ion-induced reverse leakage current in SiC Schottky diodes is shown to depend on material properties, ion linear energy transfer (LET), and bias during irradiation, but not the voltage rating of the parts. This is demonstrated experimentally for devices from multiple manufacturers with...

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Veröffentlicht in:IEEE transactions on nuclear science 2020-01, Vol.67 (1), p.135-139
Hauptverfasser: Johnson, Robert A., Javanainen, Arto, Raman, Ashok, Chakraborty, Partha S., Arslanbekov, Robert R., Witulski, Arthur F., Ball, Dennis R., Galloway, Kenneth F., Sternberg, Andrew L., Reed, Robert A., Schrimpf, Ronald D., Alles, Micheal L., Lauenstein, Jean-Marie
Format: Artikel
Sprache:eng
Schlagworte:
Degradation
Electric potential
Energy transfer
Epitaxial growth
Ions
Irradiation
Leakage
Leakage current
Leakage currents
Linear energy transfer (LET)
Material properties
Radiation
Radiation effects
Repair & maintenance
Schottky diodes
Silicon carbide
silicon carbide (SiC)
single-event effects
vertical metal oxide semiconductor field-effect transistor (MOSFET)
Voltage
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Zusammenfassung:The onset of ion-induced reverse leakage current in SiC Schottky diodes is shown to depend on material properties, ion linear energy transfer (LET), and bias during irradiation, but not the voltage rating of the parts. This is demonstrated experimentally for devices from multiple manufacturers with voltage ratings from 600 to 1700 V. Using a device with a higher breakdown voltage than required in the application does not provide increased robustness related to leakage current degradation, compared to using a device with a lower voltage rating.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2019.2947866