Instabilities in Silicon Power Devices: A Review of Failure Mechanisms in Modern Power Devices

Author

Iannuzzo, F. ; Abbate, C. ; Busatto, G.

Author_Institution

DIEI, Univ. of Cassino & south. Lazio, Cassino, Italy

Volume

8

Issue

3

fYear

2014

fDate

Sept. 2014

Firstpage

28

Lastpage

39

Abstract

In the last 15 years, the global demand for power saving, efficiency, and weight, size, and cost reduction in both the consumer and the industrial fields have strongly pushed the research and advancements in electronic power systems. Today, electronic power systems cover nearly the full voltage range (from volts to megavolts) and almost the full power range, if we exclude gigawatt-rated power plants. The applications include:smart grids . distributed power systems . photovoltaic (PV)/wind power stations . transportation (heavy/light traction, automotive, avionics, etc.) . industry applications (motor drives, arc welding, etc.) . consumer electronics (switch-mode power supplies, household appliances, etc.).

Keywords

cost reduction; elemental semiconductors; energy conservation; power semiconductor devices; silicon; Si; consumer electronics; cost reduction; distributed power system; electronic power system; failure mechanism; gigawatt rated power plants; industry applications; modern power device; photovoltaic power system; power efficiency; power saving; silicon power device; size reduction; smart grids; transportation; weight reduction; wind power station; Cathodes; Electric fields; Energy efficiency; Failure analysis; Industrial plants; MOSFET; P-i-n diodes; Power distribution planning; Power generation planning; Power system economics; Schottky diodes;

fLanguage

English

Journal_Title

Industrial Electronics Magazine, IEEE

Publisher

ieee

ISSN

1932-4529

Type

jour

DOI

10.1109/MIE.2014.2305758

Filename

6899810