Akira Nishiura scite author profile

Experimental results on the high-voltage level shifter and dV=dt robustness of 1200 V high voltage integrated circuits (HVICs) using a self-isolation (SI) structure are reported for the first time. Generally, because high dV=dt stress is applied to HVICs during insulated gate bipolar transistor (IGBT) switching, significant displacement current flows through a highvoltage isolation capacitance. This current acts as the base current of parasitic pnp and npn transistors, and causes a potential drop in their base region. In the worst case, this parasitic operation causes device destruction. In this study, not only the normal operation of HVICs but suppression of the parasitic transistors under high dV=dt condition are experimentally demonstrated by considering a high-side layout design and back diverter electrode.

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The 3rd generation IGBT toward a limitation of IGBT performance

Otsuki

Momota

Nishiura

et al.

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An advanced FWD design concept with superior soft reverse recovery characteristics

Nemoto

Nishiura

Naito

et al.

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Trends and opportunities in intelligent power modules (IPM)

Otsuki

Watanabe

Nishiura

2015

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Akira Nishiura

4.5 kV-2000 A Power Pack IGBT (ultra high power flat-packaged PT type RC-IGBT)

Experimental and Numerical Studies on dV/dt Robustness of 1200 V High-Voltage Integrated Circuits Using Self-Isolation Structure

The 3rd generation IGBT toward a limitation of IGBT performance

An advanced FWD design concept with superior soft reverse recovery characteristics

Trends and opportunities in intelligent power modules (IPM)

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