N. Rorsman
Microwave Electronics Laboratory, Chalmers University of Technology, Sweden
P. å. Nilsson
Microwave Electronics Laboratory, Chalmers University of Technology, Sweden
J. Eriksson
Microwave Electronics Laboratory, Chalmers University of Technology, Sweden
K. Andersson
Microwave Electronics Laboratory, Chalmers University of Technology, Sweden
H. Zirath
Microwave Electronics Laboratory, Chalmers University of Technology, Sweden
Ladda ner artikelIngår i: GigaHertz 2003. Proceedings from the Seventh Symposium
Linköping Electronic Conference Proceedings 8:39, s.
Publicerad: 2003-11-06
ISBN:
ISSN: 1650-3686 (tryckt), 1650-3740 (online)
This paper presents an investigation of the scalability of 4H SiC MESFETs for high frequency applications by gate length reduction. SiC MESFETs with different gate lengths (0.50; 0.35 and 0.25 µm) and gate types (block- and ?-gates) were processed on the same wafer. The gate width of these devices ranged from 100 to 400 µm.
The MESFET structure uses a thin highly doped p-buffer to improve the output conductance and decrease the short channel effect of the MESFET. This resulted in a 20% and 25% increase in extrinsic fT and fmax; and a 12% increase in output power density.
[1] Sheppard; S.T.; Smith; R.P.; Pribble; W.L.; Ring; Z.; Smith; T.; Allen; S.T.; Milligan; J.; Palmour; J.W; Device Research Conference; 2002. 60th DRC. Conference Digest; (2002); p. 175 –178
[2] S. Sriram; G. Augustine; A. A. Burk; R. C. Glass; H. M. Hobgood; P.; A. Orphanos; L. B. Rowland; T. J. Smith; C. D. Brandt; M. C. Driver; and R. H. Hopkins; IEEE Electron Device Lett.; vol. 17; (1996); p. 369.
[3] K. Andersson; J. Eriksson; N. Rorsman; H. Zirath; IEEE Microwave and Wireless Components Letters; vol. 12 (2002); pp.119-121.
[4] H. Honda; M. Ogata; H. Sawazaki; S. Ono; and M. Arai; Materials Science Forum; vols. 433-436 (2003); pp. 745-748.