Monolithic integration of gate driver and p-GaN power HEMT for MHz-switching implemented by e-mode GaN-on-SOI process

Yuki Yamashita; Steve Stoffels; Niels Posthuma; Karen Geens; Xiangdong Li; Jun Furuta; Stefaan Decoutere; Kazutoshi Kobayashi

doi:10.1587/elex.16.20190516

This article has now been updated. Please use the final version.

Monolithic integration of gate driver and p-GaN power HEMT for MHz-switching implemented by e-mode GaN-on-SOI process

Yuki Yamashita, Steve Stoffels, Niels Posthuma, Karen Geens, Xiangdong Li, Jun Furuta, Stefaan Decoutere, Kazutoshi Kobayashi

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Keywords: GaN-HEMT, monolithic integration, gate driver, high-speed switching, 10 MHz, bootstrap

JOURNAL FREE ACCESS Advance online publication

Article ID: 16.20190516

DOI https://doi.org/10.1587/elex.16.20190516

The final version of this article is now available: Vol. 16 (2019), No. 22 pp. 20190516-20190516

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Abstract

Reducing parasitic coupling components can improve switching performance in electric circuits. A two-stage gate driver and power Gallium Nitride High Electron Mobility Transistors (GaN HEMT) were monolithically integrated for MHz-switching. The monolithic integration improves switching performance owing to minimized parasitic inductance. The proposed GaN-IC was fabricated using an enhancement-mode GaN-on-Insulator process technology. Experimental results showed that the GaN-IC had faster transition and less energy loss than a conventional circuit using a discrete gate driver. The proposed GaN-IC reduced switching time by 86% at turn-off and by 45% at turn-on under off-state V_DS of 100 V and on-state I_D of 10 A.

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