Comparisons of Design and Yield for Large-Area 10-kV 4H-SiC DMOSFETs

Author

Howell, Robert S. ; Buchoff, Steven ; Van Campen, Stephen ; McNutt, Ty R. ; Hearne, Harold ; Ezis, Andris ; Sherwin, Marc E. ; Clarke, R. Chris ; Singh, Ranbir

Author_Institution

Northrop Grumman Corp., Linthicum, MD

Volume

55

Issue

8

fYear

2008

Firstpage

1816

Lastpage

1823

Abstract

Three large-area 10-kV 4H-SiC DMOSFET designs are compared with respect to their design, die area, breakdown yield, and ON-state yield. The largest of these DMOSFETs had 0.62 cm² of active area on a 1-cm² die, with a 10-kV device producing 40 A at a gate field of 3 MV/cm. Two designs used linear interdigitated fingers, whereas the third design used a square cell layout. The linear interdigitated finger design proved to be more robust, with higher yields than the square cell geometry. It was determined that the square cell design was yield limited due to the impact of wafer bow and total thickness variations on photolithographic accuracy, making the square cell geometry less attractive for large-area 4H-SiC DMOSFETs.

Keywords

field effect transistor switches; integrated circuit yield; power MOSFET; power semiconductor switches; semiconductor device breakdown; semiconductor device models; silicon compounds; ON-state yield; SiC; breakdown yield; current 40 A; large-area DMOSFET design; linear interdigitated finger design; photolithographic accuracy; power MOSFET; power switching; silicon carbide; square cell geometry; voltage 10 kV; yield optimization; Conductivity; Electric breakdown; Fingers; Geometry; Helium; MOSFETs; Robustness; Silicon carbide; Space exploration; Switching loss; Power MOSFETs; power switching; silicon carbide; yield optimization;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2008.926684

Filename

4578851