Static and Dynamic Characterization of 1200 V SiC MOSFETs at Room and Cryogenic Temperatures

Mehrabankhomartash, Mahmoud; Yin, Shiyuan; Cruz, Alfonso; Graber, Lukas; Saeedifard, Maryam; Evans, Simon J.; Kapaun, Florian; Revel, I.; Steiner, Gerhard; Ybanez, Ludovic; Park, Chanyeop

doi:10.1109/iecon48115.2021.9589665

Cited by 4 publications

(2 citation statements)

References 16 publications

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“…The error in power measurement that results from this phase error is given as [30], where ∆ϕ p is the phase discrepancy caused by the parasitic inductance of the measurement setup, and ϕ i is the phase difference between v 2 (t) and i 1 (t). Inspection of (13) shows that when the quality factor of the core under test is high, then ∆ϕ p will be amplified.…”

Section: Inductorsmentioning

confidence: 99%

“…In such a powertrain the temperature of the power electronics would be cryogenic (<−150 • C). At these temperatures silicon-carbide (SiC) FETs [12][13][14] and IGBTs [15,16] tend to have an increase in conduction losses due to a higher R DS(ON) while silicon (Si) FETs [17,18] and gallium nitride (GaN) high electron mobility transistors (HEMTs), [19][20][21][22][23][24] have reduced conduction losses. However, carrier freezeout limits the R DS(ON) reductions of Si devices in comparison to GaN devices.…”

Section: Introductionmentioning

confidence: 99%

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GaN-based cryogenic temperature power electronics for superconducting motors in cryo-electric aircraft

Wadsworth

Thrimawithana

Zhao

et al. 2023

Supercond. Sci. Technol.

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Climate change has spurred a shift to electric transportation, but aviation faces challenges with electric energy storage and propulsion. Cryogenically cooled superconductingmotors, along with cryogenically cooled power electronics, offer a solution to increase the efficiency and power density of electric aircraft. This paper evaluates the feasibility of cryogenic power electronics by characterizing new technologies (GaN, nanocrystalline) using new experimental techniques. It is found that the on resistance reductions of GaN E-HEMTs at cryogenic temperatures depend on the maximum blocking voltage of the device, and the size of the gate resistor for ohmic p-GaN devices. Different types of nanocrystalline cores are shown to vary greatly in their behavior at cryogenic temperatures, which is measured using a modified core loss measurement circuit. Further analysis shows that the losses of a GaN based cryogenic inverter could potentially halve that of an equivalent Si based inverter

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Section: Inductorsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

GaN-based cryogenic temperature power electronics for superconducting motors in cryo-electric aircraft

Wadsworth

Thrimawithana

Zhao

et al. 2023

Supercond. Sci. Technol.

View full text Add to dashboard Cite

show abstract

Design and Implementation of Automated Characterization of T-type based Power Module for PV Inverter Reliability Assessment

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et al. 2022

2022 IEEE Energy Conversion Congress and Exposition (ECCE)

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Fully Automated Wide Temperature Range Semiconductor Characterization

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et al. 2023

2023 25th European Conference on Power Electronics and Applications (EPE'23 ECCE Europe)

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New measurement point Waveforms loading and pre-processingWaveform smoothing Current offset and skew correction DC link voltage determination Turn-on analysisDetermine integration borders Calculate turn-on energy Calculate dv/dt and di/dt Calculate imax and umax Calculate commutation time . Static analysis Voltage offset correction Determine investigation borders Calculate output characteristics Optional: curve combination . Save data to result file Turn-off analysis Determine integration borders Calculate turn-off energy Calculate dv/dt and di/dt Calculate imax and umax Calculate commutation time

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Static and Dynamic Characterization of 1200 V SiC MOSFETs at Room and Cryogenic Temperatures

Cited by 4 publications

References 16 publications

GaN-based cryogenic temperature power electronics for superconducting motors in cryo-electric aircraft

GaN-based cryogenic temperature power electronics for superconducting motors in cryo-electric aircraft

Design and Implementation of Automated Characterization of T-type based Power Module for PV Inverter Reliability Assessment

Fully Automated Wide Temperature Range Semiconductor Characterization

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