Title :
New Investigation Possibilities on Forward Biased Power Devices Using Cross Sections
Author :
Kociniewski, T. ; Moussodji, J. ; Khatir, Z. ; Berkani, M. ; Lefebvre, S. ; Azzopardi, S.
Author_Institution :
GEMaC, Univ. of Versailles-St. Quentin, France
fDate :
4/1/2012 12:00:00 AM
Abstract :
For the first time, it is demonstrated in this letter that high-power silicon devices [diodes and insulated gate bipolar transistor (IGBTs)] can be forward biased and remains functional after cross sections. Sample preparation is presented, and electrical characterizations of a high-power diode and IGBT (600 V-200 A) have been performed in steady on-state. Infrared thermography on the cross-section surface using a macro-lens with high spatial resolution has allowed characterizing the vertical thermal distribution inside the power diode during forward bias. The impact of this work is that it opens a wide field of investigation in high-power semiconductor device characterization under forward bias.
Keywords :
infrared imaging; insulated gate bipolar transistors; lenses; power semiconductor diodes; temperature distribution; IGBT; cross sections; cross-section surface; diodes; electrical characterizations; forward biased power devices; high-power diode; high-power semiconductor device; high-power silicon devices; infrared thermography; insulated gate bipolar transistor; investigation possibility; macro-lens; spatial resolution; vertical thermal distribution; Insulated gate bipolar transistors; Performance evaluation; Semiconductor device measurement; Semiconductor diodes; Spatial resolution; Temperature measurement; Thermal analysis; Cross section; IGBT; electrical characterization; failure analysis; power devices; power diode; thermal characterization; thermal mapping;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2011.2182492
