Title :
Thermal behavior of a superjunction MOSFET in a high-current conduction
Author :
Roig, Jaume ; Stefanov, Evgueniy ; Morancho, Frédéric
Author_Institution :
Lab. d´´Analyse et d´´Archit. des Systemes, CNRS, Toulouse
fDate :
7/1/2006 12:00:00 AM
Abstract :
In this paper, a detailed study of the superjunction MOSFET (SJ-MOSFET) thermal behavior on high-current conduction is presented. First, the heat-generation (HG) process and its dependence on device geometry and biasing conditions are elucidated from numerical-simulation tools. Later, the resultant temperature distribution is evaluated by simulation, thus, acquiring a physical understanding of its impact on the electrical characteristics and failure mechanisms, particularly at short-circuit operation. The obtained results show relevant differences with respect to the thermal behavior of conventional power MOSFETs. As a matter of fact, the maximum HG in SJ-MOSFET is found at a certain distance from the surface, which principally depends on the drift length. This fact has important implications on the device reliability prediction and a compact electrothermal modeling
Keywords :
heat conduction; power MOSFET; semiconductor device models; semiconductor device reliability; short-circuit currents; temperature distribution; SJ-MOSFET; device reliability prediction; electrical characteristics; electrothermal model; failure mechanisms; heat-generation process; high-current conduction; power MOSFET; short-circuit operation; superjunction MOSFET; temperature distribution; thermal behavior; Electric variables; Electrothermal effects; Failure analysis; Geometry; MOSFET circuits; Mercury (metals); Power MOSFET; Predictive models; Temperature distribution; Thermal conductivity; Power MOSFET; reliability; short circuit; superjunction (SJ); thermal modeling;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2006.876277
