Analysis of power device failure under avalanche mode Conduction

Author

Alexakis, P. ; Alatise, O. ; Hu, J. ; Jahdi, S. ; Gonzalez, J. Ortiz ; Ran, L. ; Mawby, P.A.

Author_Institution

Sch. of Eng., Univ. of Warwick, Coventry, UK

fYear

2015

fDate

1-5 June 2015

Firstpage

1833

Lastpage

1839

Abstract

This paper investigates the physics of device failure during avalanche for 1.2 kV SiC MOSFETs, silicon MOSFETs and silicon IGBTs. The impact of ambient temperature, initial conditions of the device prior to avalanche breakdown and the avalanche duration is explored for the different technologies. Two types of tests were conducted namely (i) constant avalanche duration with different peak avalanche currents and (ii) constant peak avalanche current with different avalanche durations. SiC MOSFETs are shown to be the most rugged technology followed by the silicon IGBT and the silicon MOSFET. The material properties of SiC suppress the triggering of the parasitic BJT that causes thermal runaway during avalanche.

Keywords

failure analysis; power MOSFET; power bipolar transistors; power semiconductor devices; semiconductor device breakdown; semiconductor device reliability; silicon compounds; wide band gap semiconductors; BJT; IGBT; MOSFET; SiC; avalanche breakdown; avalanche mode conduction; material properties; voltage 1.2 kV; Inductors; Insulated gate bipolar transistors; Logic gates; MOSFET; Silicon; Silicon carbide; Temperature measurement; Avalanche Conduction; MOSFET; Reliability; Silicon Carbide;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Electronics and ECCE Asia (ICPE-ECCE Asia), 2015 9th International Conference on

Conference_Location

Seoul

Type

conf

DOI

10.1109/ICPE.2015.7168028

Filename

7168028