GaN power switches provide remarkable performance in terms of power-density, reduced parasitics, and high-thermal handling capability that enable the realization of very efficient and compact dc/dc converters. Despite exhibiting state-of-the-art channel conductivity, GaN high electron mobility transistor (HEMT) devices are affected by the degradation of the dynamic on-Resistance (RON) at increasing off-state voltages and operative temperatures. In this paper, a novel laboratory setup and characterization procedure for the dynamic RON of GaN HEMT switches in the presence of thermal- and trapping-effects is presented. The proposed setup allows the study of RON transients after the switching event at variable off-state voltages and temperature...
Power components based on GaN are known by the instability of their electrical characteristics, in p...
Gallium nitride high-electron-mobility transistors (GaN-HEMTs) suffer from trapping effects that inc...
Wide bandgap devices such as GaN HEMTs are a promising technology in the field of Power Electronics....
GaN power switches provide remarkable performance in terms of power-density, reduced parasitics, and...
High-voltage GaN switches can offer tremendous advantages over silicon counterparts for the developm...
Charge-trapping mechanisms observed in high-voltage GaN switches are responsible for the degradatio...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
This study comprehensively analyzed the reliability of trapping and hot-electron effects responsible...
The on-resistance (RON) degradation in normally-OFF GaN high electron mobility transistors has been ...
Gallium nitride enhancement-mode high electron mobility transistors (GaN E-HEMTs) can achieve high f...
Charge-trapping mechanisms observed in high-voltage GaN switches are responsible for the degradation...
GaN-HEMTs suffer from trapping effects which increases device ON-state resistance (RDS(on)) above it...
We have investigated the impact of high-power (HP) stress on the dynamic ON-resistance (RON) in high...
GaN-HEMTs suffer from trapping effects which increases device ON-state resistance (RDS(on)) above it...
Gallium Nitride (GaN) high electron mobility transistors (HEMTs) are becoming increasingly popular i...
Power components based on GaN are known by the instability of their electrical characteristics, in p...
Gallium nitride high-electron-mobility transistors (GaN-HEMTs) suffer from trapping effects that inc...
Wide bandgap devices such as GaN HEMTs are a promising technology in the field of Power Electronics....
GaN power switches provide remarkable performance in terms of power-density, reduced parasitics, and...
High-voltage GaN switches can offer tremendous advantages over silicon counterparts for the developm...
Charge-trapping mechanisms observed in high-voltage GaN switches are responsible for the degradatio...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
This study comprehensively analyzed the reliability of trapping and hot-electron effects responsible...
The on-resistance (RON) degradation in normally-OFF GaN high electron mobility transistors has been ...
Gallium nitride enhancement-mode high electron mobility transistors (GaN E-HEMTs) can achieve high f...
Charge-trapping mechanisms observed in high-voltage GaN switches are responsible for the degradation...
GaN-HEMTs suffer from trapping effects which increases device ON-state resistance (RDS(on)) above it...
We have investigated the impact of high-power (HP) stress on the dynamic ON-resistance (RON) in high...
GaN-HEMTs suffer from trapping effects which increases device ON-state resistance (RDS(on)) above it...
Gallium Nitride (GaN) high electron mobility transistors (HEMTs) are becoming increasingly popular i...
Power components based on GaN are known by the instability of their electrical characteristics, in p...
Gallium nitride high-electron-mobility transistors (GaN-HEMTs) suffer from trapping effects that inc...
Wide bandgap devices such as GaN HEMTs are a promising technology in the field of Power Electronics....