Design and Implementation of a GaN-Based, 100-kHz, 102-W/in3 Single-Phase Inverter

Chongwen Zhao; Bradford Trento; Ling Jiang; Edward A. Jones; Bo Liu; Zheyu Zhang; Daniel Costinett; Fei Fred Wang; Leon M. Tolbert; John F. Jansen; Reid Kress; Rick Langley

doi:10.1109/JESTPE.2016.2573758

Design and Implementation of a GaN-Based, 100-kHz, 102-W/in³ Single-Phase Inverter

Chongwen Zhao
, Bradford Trento
, Ling Jiang
, Edward A. Jones
, Bo Liu
, Zheyu Zhang
, Daniel Costinett
, Fei Fred Wang
, Leon M. Tolbert
, John F. Jansen
, Reid Kress
, Rick Langley

Mechanical Systems Modeling

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

92 Scopus citations

Abstract

High power density is a desirable feature of power electronics design, which prompts economic incentives for industrial applications. In this paper, a gallium nitride (GaN)-based 2-kVA single-phase inverter design was developed for the Google Little Box Challenge, which achieves a 102-W/in³ power density. First, the static and dynamic temperature-dependent characteristics of multiple SiC and enhancement-mode GaN FETs are investigated and compared. Based on the device testing results, several topologies of the inverter stage and different power decoupling solutions are compared with respect to the device volume, efficiency, and thermal requirements. Moreover, some design approaches for magnetic devices and the implementation of gate drives for GaN devices are discussed in this paper, which enable a compact and robust system. Finally, a dc notch filter and a hard switching full-bridge converter are combined as the proposed design for the prototype. A 2-kVA prototype is demonstrated, which meets the volume, efficiency, and thermal requirements. The performance of the prototype is verified by the experimental results.

Original language	English
Article number	7480346
Pages (from-to)	824-840
Number of pages	17
Journal	IEEE Journal of Emerging and Selected Topics in Power Electronics
Volume	4
Issue number	3
DOIs	https://doi.org/10.1109/JESTPE.2016.2573758
State	Published - Sep 2016

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Zhao, C., Trento, B., Jiang, L., Jones, E. A., Liu, B., Zhang, Z., Costinett, D., Wang, F. F., Tolbert, L. M., Jansen, J. F., Kress, R., & Langley, R. (2016). Design and Implementation of a GaN-Based, 100-kHz, 102-W/in³ Single-Phase Inverter. IEEE Journal of Emerging and Selected Topics in Power Electronics, 4(3), 824-840. Article 7480346. https://doi.org/10.1109/JESTPE.2016.2573758

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title = "Design and Implementation of a GaN-Based, 100-kHz, 102-W/in3 Single-Phase Inverter",

abstract = "High power density is a desirable feature of power electronics design, which prompts economic incentives for industrial applications. In this paper, a gallium nitride (GaN)-based 2-kVA single-phase inverter design was developed for the Google Little Box Challenge, which achieves a 102-W/in3 power density. First, the static and dynamic temperature-dependent characteristics of multiple SiC and enhancement-mode GaN FETs are investigated and compared. Based on the device testing results, several topologies of the inverter stage and different power decoupling solutions are compared with respect to the device volume, efficiency, and thermal requirements. Moreover, some design approaches for magnetic devices and the implementation of gate drives for GaN devices are discussed in this paper, which enable a compact and robust system. Finally, a dc notch filter and a hard switching full-bridge converter are combined as the proposed design for the prototype. A 2-kVA prototype is demonstrated, which meets the volume, efficiency, and thermal requirements. The performance of the prototype is verified by the experimental results.",

keywords = "Gallium nitride (GaN), Google Little Box Challenge (LBC), high power density, silicon carbide (SiC), single-phase inverter",

author = "Chongwen Zhao and Bradford Trento and Ling Jiang and Jones, \{Edward A.\} and Bo Liu and Zheyu Zhang and Daniel Costinett and Wang, \{Fei Fred\} and Tolbert, \{Leon M.\} and Jansen, \{John F.\} and Reid Kress and Rick Langley",

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AU - Jones, Edward A.

AU - Liu, Bo

AU - Zhang, Zheyu

AU - Costinett, Daniel

AU - Wang, Fei Fred

AU - Tolbert, Leon M.

AU - Jansen, John F.

AU - Kress, Reid

AU - Langley, Rick

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N2 - High power density is a desirable feature of power electronics design, which prompts economic incentives for industrial applications. In this paper, a gallium nitride (GaN)-based 2-kVA single-phase inverter design was developed for the Google Little Box Challenge, which achieves a 102-W/in3 power density. First, the static and dynamic temperature-dependent characteristics of multiple SiC and enhancement-mode GaN FETs are investigated and compared. Based on the device testing results, several topologies of the inverter stage and different power decoupling solutions are compared with respect to the device volume, efficiency, and thermal requirements. Moreover, some design approaches for magnetic devices and the implementation of gate drives for GaN devices are discussed in this paper, which enable a compact and robust system. Finally, a dc notch filter and a hard switching full-bridge converter are combined as the proposed design for the prototype. A 2-kVA prototype is demonstrated, which meets the volume, efficiency, and thermal requirements. The performance of the prototype is verified by the experimental results.

AB - High power density is a desirable feature of power electronics design, which prompts economic incentives for industrial applications. In this paper, a gallium nitride (GaN)-based 2-kVA single-phase inverter design was developed for the Google Little Box Challenge, which achieves a 102-W/in3 power density. First, the static and dynamic temperature-dependent characteristics of multiple SiC and enhancement-mode GaN FETs are investigated and compared. Based on the device testing results, several topologies of the inverter stage and different power decoupling solutions are compared with respect to the device volume, efficiency, and thermal requirements. Moreover, some design approaches for magnetic devices and the implementation of gate drives for GaN devices are discussed in this paper, which enable a compact and robust system. Finally, a dc notch filter and a hard switching full-bridge converter are combined as the proposed design for the prototype. A 2-kVA prototype is demonstrated, which meets the volume, efficiency, and thermal requirements. The performance of the prototype is verified by the experimental results.

KW - Gallium nitride (GaN)

KW - Google Little Box Challenge (LBC)

KW - high power density

KW - silicon carbide (SiC)

KW - single-phase inverter

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ER -

Design and Implementation of a GaN-Based, 100-kHz, 102-W/in3 Single-Phase Inverter

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Design and Implementation of a GaN-Based, 100-kHz, 102-W/in³ Single-Phase Inverter