Title :
Temperature Sensing for Power MOSFETs in Short-Duration Avalanche Mode
Author :
Azoui, Toufik ; Tounsi, Patrick ; Pasquet, G. ; Reynes, Jean-Michel ; Pomes, Emilie ; Dorkel, Jean-Marie
Author_Institution :
Lab. d´Anal. et d´Archit. des Syst. (LAAS), Toulouse, France
Abstract :
The purpose of this paper is based on the estimation of power MOSFET junction temperature during a short-duration avalanche mode. Therefore, an experiment has been developed and results have been correlated with simple electrothermal modeling. The simple electrothermal model allows monitoring of junction temperature by simple measurements of the ID(t) and BVdss(t) waveforms. Accurate extraction of model parameters is linked with precise recording of the instantaneous avalanche voltage. Indeed, avalanche voltage is impacted by two phenomena, namely, the current-induced ohmic voltage drop and the shift of the breakdown voltage due to self-heating effects. This paper highlighted that during avalanche behavior, MOSFETs exhibit a dynamic avalanche resistance Rav, which is far in excess of their classical on-state resistance Rdson.
Keywords :
electric breakdown; power MOSFET; semiconductor junctions; temperature sensors; voltage measurement; breakdown voltage; current induced ohmic voltage drop; electrothermal modeling; instantaneous avalanche voltage; power MOSFET junction temperature; self heating effects; short duration avalanche mode; temperature sensing; Avalanche modes; Electrothermal modeling; Avalanche mode; avalanche resistance; electrothermal modeling; power MOSFETs;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2013.2260161
