Stability and 2-D Simulation Studies of Avalanche Breakdown in 4H-SiC DMOSFETs With JTE

Author

Okayama, Taizo ; Arthur, Stephen D. ; Rao, R. Ramakrishna ; Kishore, Kuna ; Rao, Mulpuri V.

Author_Institution

George Mason Univ., Fairfax

Volume

55

Issue

2

fYear

2008

Firstpage

489

Lastpage

494

Abstract

In this paper, the stability of n-channel 4H-silicon carbide (SiC) DMOSFETs with junction termination extension (JTE) was assessed by measuring the breakdown voltage (BV) of these devices before and after bias stress at a high temperature. The BV slumped after the DMOSFET was bias stressed at 1200 V for 2 h at 175degC, and the slumped BV dynamically recovered to the prestress value during the poststress period. Computer simulation suggests that the BV slump and its recovery are dominated by the positive charge trapping/detrapping phenomena at the SiC/fleld oxide interface in the JTE structure, rather than the trapping/detrapping at the SiC/gate oxide interface in the cell structure. A positive interface charge of approximately one-third of the sheet dopant concentration of the JTE region, lowers BV by 150 V, which is the typical measured BV slump of the DMOSFETs of this paper.

Keywords

MOSFET; avalanche breakdown; semiconductor device breakdown; silicon compounds; stability; wide band gap semiconductors; DMOSFET; H-SiC; avalanche breakdown; breakdown voltage; cell structure; junction termination extension; positive interface charge; silicon carbide; temperature 175 C; time 2 h; trapping phenomena; voltage 1200 V; Aluminum; Avalanche breakdown; Breakdown voltage; Implants; Silicon carbide; Stability; Stress measurement; Temperature; Thermal conductivity; Threshold voltage; Breakdown voltage (BV); DMOSFET; interface charge; stability;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2007.912954

Filename

4436007