4.5 Article Proceedings Paper

Current Transport Mechanism for Heavy-Ion Degraded SiC MOSFETs

IEEE TRANSACTIONS ON NUCLEAR SCIENCE (2019)

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Journal

IEEE TRANSACTIONS ON NUCLEAR SCIENCE
Volume 66, Issue 7, Pages 1702-1709

Publisher

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TNS.2019.2907669

Keywords

Gate leakage; heavy-ion irradiation; silicon-carbide (SiC) power MOSFETs; single-event effect (SEE)

Categories

Engineering, Electrical & Electronic Nuclear Science & Technology

Funding

  1. ETH Zurich Foundation
  2. European Space Agency [4000111630/14/NL/PA]

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High sensitivity of silicon-carbide (SiC) power MOSFETs has been observed under heavy-ion irradiation, leading to permanent increase of drain and gate leakage currents. The electrical postirradiation analysis confirmed the degradation of the gate oxide and the blocking capability of the devices. At low drain bias, the leakage path is formed between drain and gate, while at higher bias the heavy-ion-induced leakage path is mostly from drain to source. An electrical model is proposed to explain the current transport mechanism for heavy-ion degraded SiC power MOSFETs.

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