Wide bandgap devices in AC electric drives: Opportunities and challenges
Wide bandgap (WBG) device-based power electronics converters are more efficient and
lightweight than silicon-based converters. WBG devices are an enabling technology for …
lightweight than silicon-based converters. WBG devices are an enabling technology for …
A comprehensive overview of power converter applied in high-power wind turbine: Key challenges and potential solutions
The increasing penetration of offshore wind power generation promotes the revolution of
wind turbine toward high-power application. The development of high-power wind turbine …
wind turbine toward high-power application. The development of high-power wind turbine …
A survey of EMI research in power electronics systems with wide-bandgap semiconductor devices
Wide-bandgap (WBG) power semiconductor devices have become increasingly popular due
to their superior characteristics compared to their Si counterparts. However, their fast …
to their superior characteristics compared to their Si counterparts. However, their fast …
Further Evidence on The Link Between Firm'S Control Mechanisms and Firm Financial Performance: Sultanate of Oman
ER Ahmed, TTY Alabdullah… - … of Governance and …, 2020 - journal.ump.edu.my
Based on the agency theory perspective and its corporate governance problem, the current
study investigated how control mechanisms affect firm financial performance with a special …
study investigated how control mechanisms affect firm financial performance with a special …
A review of switching slew rate control for silicon carbide devices using active gate drivers
Driving solutions for power semiconductor devices are experiencing new challenges since
the emerging wide bandgap power devices, such as silicon carbide (SiC), with superior …
the emerging wide bandgap power devices, such as silicon carbide (SiC), with superior …
Intelligent gate drivers for future power converters
This article gives insights into recent developments in the field of power semiconductor gate
drivers that exhibit intelligent features. Such features are active switching transient control …
drivers that exhibit intelligent features. Such features are active switching transient control …
A review of switching oscillations of wide bandgap semiconductor devices
J Chen, X Du, Q Luo, X Zhang, P Sun… - IEEE Transactions on …, 2020 - ieeexplore.ieee.org
Wide bandgap (WBG) devices offer the advantages of high frequency, high efficiency, and
high power density to power converters due to their excellent performance. However, their …
high power density to power converters due to their excellent performance. However, their …
Active gate driver for improving current sharing performance of paralleled high-power SiC MOSFET modules
Y Wen, Y Yang, Y Gao - IEEE Transactions on power …, 2020 - ieeexplore.ieee.org
Featuring higher switching speed and lower losses, the silicon carbide MOSFETs (SiC
MOSFETs) are widely used in higher power density and higher efficiency power electronic …
MOSFETs) are widely used in higher power density and higher efficiency power electronic …
A novel active gate driver for improving switching performance of high-power SiC MOSFET modules
Y Yang, Y Wen, Y Gao - IEEE Transactions on Power …, 2018 - ieeexplore.ieee.org
Featuring higher switching speed and lower losses, the silicon carbide mosfets (SiC
mosfets) are widely used in higher power density and higher efficiency power electronic …
mosfets) are widely used in higher power density and higher efficiency power electronic …
Adaptive multi-level active gate drivers for SiC power devices
State-of-the-art silicon carbide (SiC) power devices provide superior performance over
silicon devices with much higher switching frequencies/speed and lower losses. High …
silicon devices with much higher switching frequencies/speed and lower losses. High …