Monolithic GaN-Based Driver and GaN Switch With Diode-Emulated GaN Technique for 50-MHz Operation and Sub-0.2-ns Deadtime Control

Tz Wun Wang; Yu Yung Kao; Sheng Hsi Hung; Yong Hwa Wen; Tzu Hsien Yang; Si Yi Li; Ke Horng Chen; Kuo Lin Zheng; Ying Hsi Lin; Shian Ru Lin; Tsung Yen Tsai

doi:10.1109/JSSC.2022.3200381

Monolithic GaN-Based Driver and GaN Switch With Diode-Emulated GaN Technique for 50-MHz Operation and Sub-0.2-ns Deadtime Control

Tz Wun Wang, Yu Yung Kao, Sheng Hsi Hung, Yong Hwa Wen, Tzu Hsien Yang, Si Yi Li, Ke Horng Chen, Kuo Lin Zheng, Ying Hsi Lin, Shian Ru Lin, Tsung Yen Tsai

電機工程學系

研究成果: Article › 同行評審

1 引文斯高帕斯（Scopus）

摘要

In this article, the proposed monolithic gallium nitride (GaN)-based driver uses the diode-emulated technique to reduce reverse conduction through a meta-stable fast (MSF) comparator with sub-0.2-ns deadtime. In addition, an active bootstrap controller with a fast discharge loop is used to reduce parasitic effects to improve the driving capability, thereby increasing the switching frequency. Furthermore, the proposed gate driver with dual <inline-formula> <tex-math notation="LaTeX">$dv/dt$</tex-math> </inline-formula> control can reduce the gate-ringing during turn-on/turn-off. Experimental results show that the GaN-based monolithic driver can achieve an operating frequency of 50 MHz and a slew rate of 120 V/ns. At 50 MHz, the conversion of 48-to-5 V can achieve a peak efficiency of 95.4% at the load current of 3.5 A.

原文	English
頁（從 - 到）	1-12
頁數	12
期刊	IEEE Journal of Solid-State Circuits
DOIs	https://doi.org/10.1109/JSSC.2022.3200381
出版狀態	Accepted/In press - 2022

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10.1109/JSSC.2022.3200381

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引用此

Wang, T. W., Kao, Y. Y., Hung, S. H., Wen, Y. H., Yang, T. H., Li, S. Y., Chen, K. H., Zheng, K. L., Lin, Y. H., Lin, S. R., & Tsai, T. Y. (認可的出版社/出版中). Monolithic GaN-Based Driver and GaN Switch With Diode-Emulated GaN Technique for 50-MHz Operation and Sub-0.2-ns Deadtime Control. IEEE Journal of Solid-State Circuits, 1-12. https://doi.org/10.1109/JSSC.2022.3200381

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title = "Monolithic GaN-Based Driver and GaN Switch With Diode-Emulated GaN Technique for 50-MHz Operation and Sub-0.2-ns Deadtime Control",

abstract = "In this article, the proposed monolithic gallium nitride (GaN)-based driver uses the diode-emulated technique to reduce reverse conduction through a meta-stable fast (MSF) comparator with sub-0.2-ns deadtime. In addition, an active bootstrap controller with a fast discharge loop is used to reduce parasitic effects to improve the driving capability, thereby increasing the switching frequency. Furthermore, the proposed gate driver with dual $dv/dt$ control can reduce the gate-ringing during turn-on/turn-off. Experimental results show that the GaN-based monolithic driver can achieve an operating frequency of 50 MHz and a slew rate of 120 V/ns. At 50 MHz, the conversion of 48-to-5 V can achieve a peak efficiency of 95.4% at the load current of 3.5 A.",

keywords = "Active bootstrap technique, Control systems, diode-emulated gallium nitride (GaN) technique, dual dv/dt controller, Gallium nitride, GaN switch, HEMTs, Logic gates, meta-stable fast (MSF) comparator, MODFETs, monolithically integrated GaN driver, Switches, Topology",

author = "Wang, {Tz Wun} and Kao, {Yu Yung} and Hung, {Sheng Hsi} and Wen, {Yong Hwa} and Yang, {Tzu Hsien} and Li, {Si Yi} and Chen, {Ke Horng} and Zheng, {Kuo Lin} and Lin, {Ying Hsi} and Lin, {Shian Ru} and Tsai, {Tsung Yen}",

note = "Publisher Copyright: IEEE",

year = "2022",

doi = "10.1109/JSSC.2022.3200381",

language = "English",

pages = "1--12",

journal = "IEEE Journal of Solid-State Circuits",

issn = "0018-9200",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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TY - JOUR

T1 - Monolithic GaN-Based Driver and GaN Switch With Diode-Emulated GaN Technique for 50-MHz Operation and Sub-0.2-ns Deadtime Control

AU - Wang, Tz Wun

AU - Kao, Yu Yung

AU - Hung, Sheng Hsi

AU - Wen, Yong Hwa

AU - Yang, Tzu Hsien

AU - Li, Si Yi

AU - Chen, Ke Horng

AU - Zheng, Kuo Lin

AU - Lin, Ying Hsi

AU - Lin, Shian Ru

AU - Tsai, Tsung Yen

N1 - Publisher Copyright: IEEE

PY - 2022

Y1 - 2022

N2 - In this article, the proposed monolithic gallium nitride (GaN)-based driver uses the diode-emulated technique to reduce reverse conduction through a meta-stable fast (MSF) comparator with sub-0.2-ns deadtime. In addition, an active bootstrap controller with a fast discharge loop is used to reduce parasitic effects to improve the driving capability, thereby increasing the switching frequency. Furthermore, the proposed gate driver with dual $dv/dt$ control can reduce the gate-ringing during turn-on/turn-off. Experimental results show that the GaN-based monolithic driver can achieve an operating frequency of 50 MHz and a slew rate of 120 V/ns. At 50 MHz, the conversion of 48-to-5 V can achieve a peak efficiency of 95.4% at the load current of 3.5 A.

AB - In this article, the proposed monolithic gallium nitride (GaN)-based driver uses the diode-emulated technique to reduce reverse conduction through a meta-stable fast (MSF) comparator with sub-0.2-ns deadtime. In addition, an active bootstrap controller with a fast discharge loop is used to reduce parasitic effects to improve the driving capability, thereby increasing the switching frequency. Furthermore, the proposed gate driver with dual $dv/dt$ control can reduce the gate-ringing during turn-on/turn-off. Experimental results show that the GaN-based monolithic driver can achieve an operating frequency of 50 MHz and a slew rate of 120 V/ns. At 50 MHz, the conversion of 48-to-5 V can achieve a peak efficiency of 95.4% at the load current of 3.5 A.

KW - Active bootstrap technique

KW - Control systems

KW - diode-emulated gallium nitride (GaN) technique

KW - dual dv/dt controller

KW - Gallium nitride

KW - GaN switch

KW - HEMTs

KW - Logic gates

KW - meta-stable fast (MSF) comparator

KW - MODFETs

KW - monolithically integrated GaN driver

KW - Switches

KW - Topology

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U2 - 10.1109/JSSC.2022.3200381

DO - 10.1109/JSSC.2022.3200381

M3 - Article

AN - SCOPUS:85137555494

SP - 1

EP - 12

JO - IEEE Journal of Solid-State Circuits

JF - IEEE Journal of Solid-State Circuits

SN - 0018-9200

ER -

Monolithic GaN-Based Driver and GaN Switch With Diode-Emulated GaN Technique for 50-MHz Operation and Sub-0.2-ns Deadtime Control

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