T. Shoji scite author profile

T. Shoji

4Publications

87Citation Statements Received

38Citation Statements Given

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Affiliations

Toyota Central Research and Development Laboratories (Japan), Toyota Motor Corporation (Japan), Toyota Motor Corporation (Switzerland)

Publications

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Triggering Mechanism for Neutron Induced Single-Event Burnout in Power Devices

Shoji

Nishida

Hamada

2013

Jpn. J. Appl. Phys.

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Cosmic ray neutrons can trigger catastrophic failures in power devices. It has been reported that parasitic transistor action causes single-event burnout (SEB) in power metal–oxide–semiconductor field-effect transistors (MOSFETs) and insulated gate bipolar transistors (IGBTs). However, power diodes do not have an inherent parasitic transistor. In this paper, we describe the mechanism triggering SEB in power diodes for the first time using transient device simulation. Initially, generated electron–hole pairs created by incident recoil ions generate transient current, which increases the electron density in the vicinity of the n-/n+ boundary. The space charge effect of the carriers leads to an increase in the strength of the electric field at the n-/n+ boundary. Finally, the onset of impact ionization at the n-/n+ boundary can trigger SEB. Furthermore, this failure is closely related to diode secondary breakdown. It was clarified that the impact ionization at the n-/n+ boundary is a key point of the mechanism triggering SEB in power devices.

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Analysis of neutron-induced single-event burnout in SiC power MOSFETs

Shoji

Nishida

Hamada

et al. 2015

Microelectronics Reliability

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Reliability Design for Neutron Induced Single-Event Burnout of IGBT

et al. 2011

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Low-temperature phase MnBi compound: A potential candidate for rare-earth free permanent magnets

Smillie

et al. 2014

Journal of Alloys and Compounds

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T. Shoji

Triggering Mechanism for Neutron Induced Single-Event Burnout in Power Devices

Analysis of neutron-induced single-event burnout in SiC power MOSFETs

Reliability Design for Neutron Induced Single-Event Burnout of IGBT

Low-temperature phase MnBi compound: A potential candidate for rare-earth free permanent magnets

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