Title :
A high power and high efficiency GaAs BPLDD SAGFET with WSi/W double-layer gate for mobile communication systems
Author :
Kasai, N. ; Noda, M. ; Ito, K. ; Yamamoto, K. ; Maemura, K. ; Ohta, Y. ; Ishikawa, T. ; Yoshii, Y. ; Nakayama, M. ; Takano, H. ; Ishihara, O.
Author_Institution :
Optoelectron. & Microwave Devices R&D Lab., Mitsubishi Electr. Corp., Hyogo, Japan
fDate :
Oct. 29 1995-Nov. 1 1995
Abstract :
A buried p-layer LDD (BPLDD) self-aligned gate FET (SAGFET) with a WSi/W double-layer gate for high power amplifiers operating at low voltage supply has been successfully developed. This FET has delivered the high breakdown voltage due to the offset gate structure and the n´- layer separation from the gate edge by sidewall assisted ion-implantation technology. A WSi/W double layer gate structure was employed to reduce the gate resistance. The 1 /spl mu/m gate-length, 1.2 mm gate-width FET exhibited an output power of 24.7 dBm, a power-added efficiency of 54%, and an adjacent channel leakage power of less than -55 dBc at a 1 dB compression power of 22 dBm under a drain bias of 3.3 V at 1.9 GHz.
Keywords :
III-V semiconductors; UHF field effect transistors; buried layers; electric breakdown; gallium arsenide; ion implantation; land mobile radio; mobile radio; power MESFET; power field effect transistors; semiconductor device metallisation; 1 micron; 1.9 GHz; 3.3 V; 54 percent; UHF power amplifiers; WSi-W-GaAs; WSi/W double-layer gate; buried p-layer LDD SAGFET; gate resistance; high breakdown voltage; high efficiency device; high power FET; high power amplifiers; lightly doped drain; low voltage supply; mobile communication systems; offset gate structure; self-aligned gate FET; sidewall assisted ion-implantation technology; Annealing; FETs; Gallium arsenide; Gold; High power amplifiers; Laboratories; Low voltage; Microwave devices; Radio frequency; Resists;
Conference_Titel :
Gallium Arsenide Integrated Circuit (GaAs IC) Symposium, 1995. Technical Digest 1995., 17th Annual IEEE
Conference_Location :
San Diego, CA, USA
Print_ISBN :
0-7803-2966-X
DOI :
10.1109/GAAS.1995.528961
