Konferensartikel

Fabrication and characterization of submicron AlGaN/GaN HEMTs

Vincent Desmaris
Microtechnology and Nanoscience, Microwave Electronics Laboratory, Chalmers Univeristy of Technology, Sweden

Joakim Eriksson
Microtechnology and Nanoscience, Microwave Electronics Laboratory, Chalmers Univeristy of Technology, Sweden

Niklas Rorsman
Microtechnology and Nanoscience, Microwave Electronics Laboratory, Chalmers Univeristy of Technology, Sweden

Herbert Zirath
Microtechnology and Nanoscience, Microwave Electronics Laboratory, Chalmers Univeristy of Technology, Sweden

Ladda ner artikel

Ingår i: GigaHertz 2003. Proceedings from the Seventh Symposium

Linköping Electronic Conference Proceedings 8:34, s.

Visa mer +

Publicerad: 2003-11-06

ISBN:

ISSN: 1650-3686 (tryckt), 1650-3740 (online)

Abstract

Using our in-house 0.3 µm mushroom gate process; AlGaN/GaN high electron mobility transistors (HEMTs) with total gate periphery up to 0.6 mm were fabricated and characterized. The transistors were processed on an AlGaN/GaN heterostructure grown by MBE on sapphire. Output current densities up to 1 A/mm and extrinsic DC-transconductances (gm) of 240 mS/mm were measured. Extrinsic cut-off frequencies (ft) of 35 GHz; maximum frequencies of oscillation (fmax) of 75 GHz; were calculated from S-parameters measurements. On wafer Load-Pull measurements were performed without any active cooling on HEMTs of different sizes. Continuous wave (CW) output power densities up to 3.2 W/mm at 6 dB compression and 1.9 W/mm at 3 dB compression at 6 GHz were achieved.

Nyckelord

Inga nyckelord är tillgängliga

Referenser

[1] Chen et al: IEEE Electron Dev. Lett. 19 (1998); p. 44.

[2] U.K. Mishra et al: IEEE Trans. Microwave Theor. Tech. 46 (1998); p. 756.

[3] Nuttinck et al: IEEE MTT-S International symposium Digest 1 (2003); p. 221.

[4] Ambacher et al: J. Appl. Phys. 85 (1999); p. 3222.

[5] Weimann et al: IEEE L. Eastman Conference on High Performances Devices Proc. (2002); p. 126.

[6] Wu et al: IEEE Trans Electron Devices 48 (2001); p. 586.

[7] Tilak et al: IEEE Electron Dev. Lett. 22 (2001); p. 504.

[8] Youn et al: Electronics Letters 39 (2003); p. 566.

Citeringar i Crossref