Utkarsh Jadli scite author profile

The device library in the standard circuit simulator (SPICE) lacks a gallium nitride based high-electron-mobility-transistor (GaN-HEMT) model, required for the design and verification of power-electronic circuits. This paper shows that GaN-HEMTs can be modeled by selected equations from the standard MOSFET LEVEL 3 model in SPICE. A method is proposed for the extraction of SPICE parameters in these equations. The selected equations and the proposed parameter-extraction method are verified with measured static and dynamic characteristics of commercial GaN-HEMTs. Furthermore, a double pulse test is performed in LTSpice and compared to its manufacturer model to demonstrate the effectiveness of the MOSFET LEVEL 3 model. The advantage of the proposed approach to use the MOSFET LEVEL 3 model, in comparison to the alternative behavioral-based model provided by some manufacturers, is that users can apply the proposed method to adjust the parameters of the MOSFET LEVEL 3 model for the case of manufacturers who do not provide SPICE models for their HEMTs.

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Quantified density of performance-degrading near-interface traps in SiC MOSFETs

Chaturvedi

Dimitrijev

Haasmann

et al. 2022

Sci Rep

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Characterization of near-interface traps (NITs) in commercial SiC metal–oxide–semiconductor field-effect transistors (MOSFETs) is essential because they adversely impact both performance and reliability by reducing the channel carrier mobility and causing threshold-voltage drift. In this work, we have applied a newly developed integrated-charge technique to measure the density of NITs that are active in the above-threshold region of commercial SiC MOSFETs. The results demonstrate that NITs trap about 10% of the channel electrons for longer than 500 ns.

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Measurement of Power Dissipation Due to Parasitic Capacitances of Power MOSFETs

et al. 2020

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Analysis of the switching losses in a power MOSFET is crucial for the design of efficient power electronic systems. Currently, the state-of-the-art technique is based on measured drain current and drain-to-source voltage during the switching intervals. However, this technique does not separate the switching power due to the resistance of the MOSFET channel and due to the parasitic capacitances. In this paper, we propose a measurement method to extract the power dissipation due to the parasitic capacitances of a MOSFET, providing useful information for device selection and for the design of efficient power electronic systems. The proposed method is demonstrated on a basic boost converter. The proposed method shows that the existing method underestimates the turn-On losses by 41% and overestimates the turn-Off losses by 35%. INDEX TERMS Channel current, current diversion phenomenon, COSS losses, efficiency, power losses, power MOSFET, switching losses.

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Fast Near-Interface Traps in 4H-SiC MOS Capacitors Measured by an Integrated-Charge Method

et al. 2021

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Oxide traps existing in 4H-SiC MOS capacitors with fast response times that are active in the strong accumulation and depletion regions were characterized by an integrated-charge method. The method is based on the measurement of charging and discharging voltages across MOS capacitors in response to high-frequency voltage pulses. This method can identify traps with response times in the order of hundreds of nanoseconds. The results reveal an increasing density of near-interface traps with energy levels above the bottom of the conduction band, which are the active defects reducing the channel-carrier mobility in 4H-SiC MOSFETs.INDEX TERMS 4H-SiC MOS Capacitor, MOSFET, near-interface traps (NITs), near-interface trap density (DNIT), trap response time.

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Utkarsh Jadli

A New Parameter Estimation Method of Solar Photovoltaic

Modeling Power GaN-HEMTs Using Standard MOSFET Equations and Parameters in SPICE

Quantified density of performance-degrading near-interface traps in SiC MOSFETs

Measurement of Power Dissipation Due to Parasitic Capacitances of Power MOSFETs

Fast Near-Interface Traps in 4H-SiC MOS Capacitors Measured by an Integrated-Charge Method

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