Title :
Noise performance scaling in high-speed silicon RF technologies
Author :
Greenberg, D.R. ; Sweeney, S. ; Jagannathan, B. ; Freeman, G. ; Ahlgren, D.
Author_Institution :
Res. Div., IBM Microelectron., Hopewell Junction, NY, USA
Abstract :
SiGe HBT technology has evolved rapidly during the past several years through both scaling and structural enhancements, with each contributing to improved low-noise performance. Vertical scaling has increased f/sub T/ by 4/spl times/ between the 0.5 /spl mu/m and 0.13/spl mu/m generations, contributing to a 2.5 dB drop in noise figure at 26 GHz. At the same time, both lateral scaling as well as the move to a raised-extrinsic-base structure have reduced R/sub B/ by 4.5/spl times/, contributing an additional 1 dB F/sub min/ drop. The resulting 200GHz SiGe HBT achieves F/sub min/ and G/sub A/ values of 1.1 dB and 9 dB at 26 GHz, respectively, with a projected F/sub min/ of 3.1-3.5 dB at 60 GHz. Such performance suggests that silicon enjoys great potential to serve a range of emerging wireless applications at high frequencies.
Keywords :
Ge-Si alloys; heterojunction bipolar transistors; microwave bipolar transistors; semiconductor device noise; 0.13 micron; 0.5 micron; 200 GHz; 26 GHz; HBT technology; SiGe; high-speed RF technologies; lateral scaling; low-noise performance; noise performance scaling; raised-extrinsic-base structure; vertical scaling; wireless applications; Germanium silicon alloys; Heterojunction bipolar transistors; Integrated circuit noise; Low-frequency noise; Microelectronics; Noise figure; Noise generators; Radio frequency; Silicon germanium; Wireless LAN;
Conference_Titel :
Silicon Monolithic Integrated Circuits in RF Systems, 2003. Digest of Papers. 2003 Topical Meeting on
Conference_Location :
Grainau, Germany
Print_ISBN :
0-7803-7787-7
DOI :
10.1109/SMIC.2003.1196659
