A Review of Partial Discharge in Medium Voltage SiC Power Modules Under Square Wave Excitation: Characterization, Mitigation, and Detection
The medium voltage (MV) silicon carbide (SiC) power modules hold significant promise as a
route for the solid-state converters to achieve higher power density, higher switching …
route for the solid-state converters to achieve higher power density, higher switching …
A Comprehensive Review of Mitigation Strategies to Address Insulation Challenges within High Voltage, High Power Density (U) WBG Power Module Packages
P Adhikari, M Ghassemi - IEEE Transactions on Dielectrics and …, 2024 - ieeexplore.ieee.org
Within the expanding domain of electrical power demand, the future of power module
packaging is entwined with the progress of (ultra) wide bandgap (UWBG) materials. These …
packaging is entwined with the progress of (ultra) wide bandgap (UWBG) materials. These …
Insulation Capability at 10 kV,> 300 V/ns of a Nonlinear Resistive Polymer Nanocomposite Field-Grading Coating in a 15-kV Silicon Carbide Module
Emerging medium-voltage silicon carbide devices offer the potential to achieve more
efficient and compact power electronics for grid-tied applications. However, the lack of an …
efficient and compact power electronics for grid-tied applications. However, the lack of an …
Experimental and Simulated Analysis of Voltage Stress Within a Bar-Wound Synchronous Machine Excited by a Silicon Carbide Inverter
BJ Kelly - 2021 - rave.ohiolink.edu
Advancements in semiconductor technology present new challenges in electric machine
construction, operation, and control. Silicon carbide (SiC)-based power electronics are …
construction, operation, and control. Silicon carbide (SiC)-based power electronics are …