Title :
Degradations characterization for IGBTs operating above the 125°C MIL temperature in AC converters
Author :
Maouad, A. ; Khoury, A. ; Dujardin, F. ; Hoffmann, A. ; Charles, J.-P.
Author_Institution :
Dept. of Phys., Lebanese Univ., Fanar, Lebanon
Abstract :
IGBTs (insulated gate bipolar transistor) are formed of smaller die sizes compared to transistors usually used in AC converters for the same power handling. The operating junction temperature of IGBTs is easily above the military limit of 125°C in this case. The IGBT was placed at a temperature of 155°C for an hour. The component was characterized before and after stress. Effects of stress were analyzed. Holes at the oxide-semiconductor interface compensate the effect of charges in the oxide. A drop in the channel mobility μ was induced, as well as a relatively lower decrease of diffusion mechanism with respect to the recombination. The life duration of the minority carriers in the N- layer (τ) has decreased associated to internal degradations such as network damage through the displacement of its atoms corresponding to the creation of recombining centers in volume in the base of the bipolar transistor internal to the IGBT
Keywords :
carrier lifetime; diffusion; electron-hole recombination; insulated gate bipolar transistors; minority carriers; power convertors; 1 hour; 155 C; AC converters; IGBT; atoms displacement; bipolar transistor; channel mobility; charges effect compensation; degradations characterization; diffusion mechanism; minority carriers life duration; network damage; operating junction temperature; oxide-semiconductor interface holes; recombination; recombining centers creation; stress effects; Anodes; Cathodes; Degradation; Insulated gate bipolar transistors; Laboratories; Physics; Stress measurement; Telephony; Temperature sensors; Voltage;
Conference_Titel :
Environment and Solar, 2000 Mediterranean Conference for
Conference_Location :
Beirut
Print_ISBN :
0-7803-7117-8
DOI :
10.1109/CMPLES.2000.939883
