A design guideline of parasitic inductance for preventing oscillatory false triggering of fast switching GaN-FET

Kazuhiro Umetani; Keisuke Yagyu; Eiji Hiraki

doi:10.1002/tee.22339

A design guideline of parasitic inductance for preventing oscillatory false triggering of fast switching GaN-FET

Kazuhiro Umetani, Keisuke Yagyu, Eiji Hiraki

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

Gallium nitride field-effect transistors (GaN-FETs) are attractive devices because of its low on-state resistance and fast switching capability. However, they can suffer from false triggering caused by fast switching. Particularly, a disastrous oscillation of repetitive false triggering can occur after a turn-off, which may deteriorate the reliability of power converters. To address this issue, we give a design guideline to prevent this phenomenon. We analyze a simple circuit model to derive the condition of occurrence of this phenomenon, which is then verified experimentally. Results show that the parasitic inductance of the gating circuit, L_g, and that of the decoupling circuit, L_d, should be designed so that the LC resonance frequency of L_g and the gate–source capacitance of the GaN-FET does not coincide with that of L_d and the drain–source capacitance, respectively.

Original language	English
Pages (from-to)	S84-S90
Journal	IEEJ Transactions on Electrical and Electronic Engineering
Volume	11
DOIs	https://doi.org/10.1002/tee.22339
Publication status	Published - Dec 1 2016

Keywords

GaN-FET
false triggering
parasitic inductance
self turn-on
self-oscillation
switching noise

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1002/tee.22339

Cite this

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title = "A design guideline of parasitic inductance for preventing oscillatory false triggering of fast switching GaN-FET",

abstract = "Gallium nitride field-effect transistors (GaN-FETs) are attractive devices because of its low on-state resistance and fast switching capability. However, they can suffer from false triggering caused by fast switching. Particularly, a disastrous oscillation of repetitive false triggering can occur after a turn-off, which may deteriorate the reliability of power converters. To address this issue, we give a design guideline to prevent this phenomenon. We analyze a simple circuit model to derive the condition of occurrence of this phenomenon, which is then verified experimentally. Results show that the parasitic inductance of the gating circuit, Lg, and that of the decoupling circuit, Ld, should be designed so that the LC resonance frequency of Lg and the gate–source capacitance of the GaN-FET does not coincide with that of Ld and the drain–source capacitance, respectively.",

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T1 - A design guideline of parasitic inductance for preventing oscillatory false triggering of fast switching GaN-FET

AU - Umetani, Kazuhiro

AU - Yagyu, Keisuke

AU - Hiraki, Eiji

PY - 2016/12/1

Y1 - 2016/12/1

N2 - Gallium nitride field-effect transistors (GaN-FETs) are attractive devices because of its low on-state resistance and fast switching capability. However, they can suffer from false triggering caused by fast switching. Particularly, a disastrous oscillation of repetitive false triggering can occur after a turn-off, which may deteriorate the reliability of power converters. To address this issue, we give a design guideline to prevent this phenomenon. We analyze a simple circuit model to derive the condition of occurrence of this phenomenon, which is then verified experimentally. Results show that the parasitic inductance of the gating circuit, Lg, and that of the decoupling circuit, Ld, should be designed so that the LC resonance frequency of Lg and the gate–source capacitance of the GaN-FET does not coincide with that of Ld and the drain–source capacitance, respectively.

AB - Gallium nitride field-effect transistors (GaN-FETs) are attractive devices because of its low on-state resistance and fast switching capability. However, they can suffer from false triggering caused by fast switching. Particularly, a disastrous oscillation of repetitive false triggering can occur after a turn-off, which may deteriorate the reliability of power converters. To address this issue, we give a design guideline to prevent this phenomenon. We analyze a simple circuit model to derive the condition of occurrence of this phenomenon, which is then verified experimentally. Results show that the parasitic inductance of the gating circuit, Lg, and that of the decoupling circuit, Ld, should be designed so that the LC resonance frequency of Lg and the gate–source capacitance of the GaN-FET does not coincide with that of Ld and the drain–source capacitance, respectively.

KW - GaN-FET

KW - false triggering

KW - parasitic inductance

KW - self turn-on

KW - self-oscillation

KW - switching noise

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A design guideline of parasitic inductance for preventing oscillatory false triggering of fast switching GaN-FET

Abstract

Keywords

ASJC Scopus subject areas

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