Proceedings ArticleDOI
An analysis of the switching behavior of GaN-HEMTs
Michael Ebli,Martin Pfost +1 more
- pp 1-4
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TLDR
In this paper, the switching speed limitations of GaN-HEMTs due to the common source inductance and the gate driver supply voltage are discussed, and the impact of the parasitics and the gating voltage on the switching losses is described in detail.Abstract:
Gallium nitride high electron mobility transistors (GaN-HEMTs) have low capacitances and can achieve low switching losses in applications where hard turn-on is required. Low switching losses imply a fast switching; consequently, fast voltage and current transients occur. However, these transients can be limited by package and layout parasitics even for highly optimized systems. Furthermore, a fast switching requires a fast charging of the input capacitance, hence a high gate current. In this paper, the switching speed limitations of GaN-HEMTs due to the common source inductance and the gate driver supply voltage are discussed. The turn-on behavior of a GaN-HEMT is simulated and the impact of the parasitics and the gate driver supply voltage on the switching losses is described in detail. Furthermore, measurements are performed with an optimized layout for a drain-source voltage of 500V and a drain-source current up to 60 A.read more
Citations
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Journal ArticleDOI
Reduction of Leakage Current in GaN Schottky Diodes Through Ultraviolet/Ozone Plasma Treatment
TL;DR: In this paper, the surface passivation of metal-GaN interfaces was improved by using ultraviolet/ozone (UV/O3) plasma treatment to reduce leakage current and current on/off ratio in Schottky diodes.
Proceedings Article
A Novel Gate Driver Approach Using an Inductive Feed Forward for a Robust Turn-on of GaN Power Transistors with Gate Injection
TL;DR: In this paper, a gate driving method based on an inductive feed forward has been presented, and stable turn-on can be achieved even for a bias voltage of only 5 V. In addition, a compact design with low source inductance is characterized.
References
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Understanding the Effect of PCB Layout on Circuit Performance in a High-Frequency Gallium-Nitride-Based Point of Load Converter
David Reusch,Johan Strydom +1 more
TL;DR: In this article, the effect of PCB layout parasitic inductance on efficiency and peak device voltage stress for an eGaN FET-based point of load (POL) converter operating at a switching frequency of 1 MHz, an input voltage range of 12-28 V, an output voltage of 1.2 V, and an output current up to 20 A.
Proceedings ArticleDOI
Understanding the effect of PCB layout on circuit performance in a high frequency gallium nitride based point of load converter
David Reusch,Johan Strydom +1 more
TL;DR: In this paper, the effect of PCB layout parasitic inductance on efficiency and peak device voltage stress for an eGaN FET based point of load (POL) converter operating at a switching frequency of 1 MHz, an input voltage range of 12-28 V, an output voltage of 1.2 V, and an output current up to 20 A.
Proceedings ArticleDOI
Characterization of an enhancement-mode 650-V GaN HFET
TL;DR: In this article, the GaN Systems GS66508 is the first commercially available 650-V enhancement-mode device, and static and dynamic testing has been performed across the full current, voltage, and temperature range to enable GaN-based converter design using this new device.
Proceedings ArticleDOI
Comprehensive evaluation of GaN GIT in low- and high-frequency bridge leg applications
TL;DR: In this paper, a simple and reliable gate drive circuit for driving GaN switches is presented, and the proposed gate drive is used to evaluate the switching performance of a GaN Gate Injection Transistor (GIT) under soft and hard switching condition, which provides a basis for further optimization of totem-pole converter systems.
Proceedings ArticleDOI
Cross conduction analysis for enhancement-mode 650-V GaN HFETs in a phase-leg topology
TL;DR: In this paper, the effects of cross conduction in phase-leg topologies with enhancement-mode GaN HFETs were analyzed and compared to characterize the effect of cross-conduction in the active and synchronous devices of a phaseleg topology.
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