Title :
Reflected wave phenomenon in motor drive systems using wide bandgap devices
Author :
Scott, Michael James ; Brockman, Jared ; Boxue Hu ; Lixing Fu ; Longya Xu ; Jin Wang ; Darbali Zamora, Rachid
Author_Institution :
Dept. of Electr. & Comput. Eng. Columbus, Ohio State Univ., Columbus, OH, USA
Abstract :
Fast switching transients from power devices can produce large voltage spikes in motor drive systems with long feeder cable lengths. Referred to as the reflected wave phenomenon, it has been previously demonstrated that the maximum cable length for a given per unit overshoot decreases with increasing switching speed. With the emergence of higher switching speed components based on wide bandgap (WBG) semiconductors, this issue will present itself at shorter feeder cable lengths than comparably rated silicon (Si) devices. This work explores the reflected wave phenomenon for a gallium nitride (GaN) device and compares it to a Si MOSFET. A PSPICE model is created to predict the behavior of this issue. It is validated with experimental results. Tests were performed on a 600 V GaN device, a 600 V Si CoolMOS MOSFET, and a 650 V SiC MOSFET.
Keywords :
II-VI semiconductors; elemental semiconductors; field effect transistor switches; motor drives; power MOSFET; wide band gap semiconductors; CoolMOS MOSFET; PSPICE model; fast switching transients; feeder cable lengths; gallium nitride device; motor drive systems; reflected wave phenomenon; silicon carbide MOSFET; switching speed components; voltage 600 V; voltage 650 V; voltage spikes; wide bandgap devices; wide bandgap semiconductors; Cable shielding; Gallium nitride; Power cables; Silicon; Silicon carbide; Switches; Transient analysis; Reflected wave phenomenon; gallium nitride; motor drive; silicon carbide; wide bandgap devices;
Conference_Titel :
Wide Bandgap Power Devices and Applications (WiPDA), 2014 IEEE Workshop on
Conference_Location :
Knoxville, TN
DOI :
10.1109/WiPDA.2014.6964647
