Title :
Ultra-low dc power GaAs HBT S- and C-band low noise amplifiers for portable wireless applications
Author :
Kobayashi, Kevin W. ; Oki, Aaron K. ; Tran, Liem T. ; Streit, Dwight C.
Author_Institution :
Electron. & Technol. Div., TRW Inc., Redondo Beach, CA, USA
fDate :
12/1/1995 12:00:00 AM
Abstract :
We report on a 2.1 mW low dc power GaAs HBT LNA with 2.0 dB noise figure and 8.9 dB gain at 2 GHz. This amplifier achieves a Gain/NF.Pdc ratio figure of merit of 2.10 (1/mW) which is the highest reported at S-band. Under low dc power bias of 2 V and 0.46 mA (0.92 mW), the amplifier achieves 5.2 dB gain, 3.01 dB noise figure and a Gain/Pdc figure of merit of 5.65 (dB/mW) which is also the highest reported in this frequency band. In addition, a 2-stage self-biased C-band LNA which achieves a minimum noise figure of 2.4 dB at 5 GHz, 16.2 dB gain, with only 72 mW of dc power was also demonstrated. This is believed to be the lowest noise figure performance so far reported for an HBT amplifier above 3 GHz. Both HBT LNAs are fabricated using a relaxed 3 μm emitter width low cost GaAs production foundry process. The high performance obtained from HBT´s at very low dc bias makes them attractive for portable wireless applications in the Industrial-Scientific-Medical (ISM) frequency bands
Keywords :
DC amplifiers; III-V semiconductors; MMIC amplifiers; bipolar MMIC; gallium arsenide; heterojunction bipolar transistors; integrated circuit noise; mobile radio; 0.46 mA; 0.92 to 72 mW; 2 V; 2 to 5 GHz; 2.0 to 3.01 dB; 3 micron; 5.2 to 16.2 dB; C-band; GaAs; HBT; LNA; S-band; emitter width low cost production foundry process; industrial-scientific-medical frequency bands; low noise amplifiers; noise figure performance; portable wireless applications; ultra-low dc power amplifiers; Costs; Foundries; Frequency; Gain; Gallium arsenide; Heterojunction bipolar transistors; High power amplifiers; Low-noise amplifiers; Noise figure; Production;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
