Proceedings ArticleDOI
High-speed resonant gate driver with controlled peak gate voltage for silicon carbide MOSFETs
Philip Anthony,Neville McNeill,Derrick Holliday +2 more
- pp 2961-2968
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TLDR
In this paper, a resonant gate driver is proposed to absorb parasitic inductance in the gate path, enabling the gate resistor to be removed, and the gate voltage is maintained at the desired level using a feedback loop.Abstract:
Parasitic inductance in the gate path of a Silicon Carbide MOSFET places an upper limit upon the switching speeds achievable from these devices, resulting in unnecessarily high switching losses due to the introduction of damping resistance into the gate path. A method to reduce switching losses is proposed, using a resonant gate driver to absorb parasitic inductance in the gate path, enabling the gate resistor to be removed. The gate voltage is maintained at the desired level using a feedback loop. Experimental results for a 1200 V Silicon Carbide MOSFET gate driver are presented, demonstrating switching loss of 230 µJ at 800 V, 10 A. This represents a 20% reduction in switching losses in comparison to conventional gate drive methods.read more
Citations
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Journal ArticleDOI
An Experimental Investigation of the Tradeoff between Switching Losses and EMI Generation With Hard-Switched All-Si, Si-SiC, and All-SiC Device Combinations
TL;DR: In this paper, the tradeoff between switching losses and the high-frequency spectral amplitude of the device switching waveforms is quantified experimentally for all-Si, Si-SiC, and allSiC device combinations.
Journal ArticleDOI
Wide Bandgap Technologies and Their Implications on Miniaturizing Power Electronic Systems
TL;DR: The current state of wide bandgap device technology is reviewed and its impact on power electronic system miniaturization for a wide variety of voltage levels is described in this article, followed by an outline of the applications that stand to be impacted.
Journal ArticleDOI
Modeling and Analysis of SiC MOSFET Switching Oscillations
TL;DR: In this article, equivalent circuit models incorporating all parasitic elements are developed for the turn-ON and turn-OFF of a SiC MOSFET, and simple mathematical formulas are derived to provide the theoretical analysis of the switching oscillation phenomenon, and to guide the snubber or damping circuit design.
Journal ArticleDOI
Instability in Half-Bridge Circuits Switched With Wide Band-Gap Transistors
TL;DR: In this article, the authors present an analytical treatment of self-sustained oscillation in wide band-gap field effect devices by casting the switching circuit as an unintentional negative resistance oscillator and applying it to the problem of power circuit oscillation.
Journal ArticleDOI
A Novel Active Gate Driver for Improving SiC MOSFET Switching Trajectory
TL;DR: A novel active gate driver (AGD) for improving the SiC MOSFET switching trajectory with high performance is presented and results show that the AGD can reduce the overshoots, oscillations, and losses without compromising the EMI.
References
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Journal ArticleDOI
SiC versus Si—Evaluation of Potentials for Performance Improvement of Inverter and DC–DC Converter Systems by SiC Power Semiconductors
TL;DR: The impact on the system-level performance, i.e., efficiency, power density, etc., of industrial inverter drives and of dc-dc converter resulting from the new SiC devices is evaluated based on analytical optimization procedures and prototype systems.
Proceedings ArticleDOI
A resonant power MOSFET/IGBT gate driver
TL;DR: In this paper, a resonant gate driver was proposed to drive a power MOSFET or IGBT using the energy stored in the gate capacitance to reduce CV/sup 2/f losses associated with a conventional gate driver.
Journal ArticleDOI
A Resonant Gate-Drive Circuit Capable of High-Frequency and High-Efficiency Operation
TL;DR: In this paper, a new resonant gate-drive circuit for power MOSFETs is proposed, which is characterized by a resonant inductor connected in series with the gate terminal of the driven MOS-FET.
Journal ArticleDOI
An Efficient High-Frequency Drive Circuit for GaN Power HFETs
TL;DR: The requirements for driving gallium nitride (GaN) heterostructure field-effect transistors (HFETs) and the design of a resonant drive circuit for GaN power HFET switches are discussed in this paper.
Journal ArticleDOI
High-Temperature Silicon-on-Insulator Gate Driver for SiC-FET Power Modules
Javier Valle-Mayorga,Caleb Paul Gutshall,Khoa Minh Phan,I. Escorcia-Carranza,Homer Alan Mantooth,Bradley A. Reese,Marcelo Schupbach,A.B. Lostetter +7 more
TL;DR: In this paper, the authors presented a 225°C operable, silicon-on-insulator (SOI) high-voltage isolated gate driver IC for SiC devices, which was designed and fabricated in a 1 μm, partially depleted, CMOS process.