%Aigaion2 BibTeX export from IfE Document Management System
%Wednesday 16 May 2012 10:58:38 PM

@ARTICLE{1339294,
    author = {Barras, David and Ellinger, Frank and J{\"{a}}ckel, Heinz and Hirt, Walter},
  keywords = {1 V, 10 dB, 3.4 to 6.9 GHz, 3.5 mW, amplifiers, BiCMOS integrated circuits, bipolar CMOS, feedback, feedback techniques, figure of merit, Ge-Si alloys, low supply voltage, low-power electronics 0.25 micron, low-power low-noise amplifier, microwave monolithic integrated circuit, MMIC, peaking techniques, SiGe, ultra-wideband frontends},
     month = {Oct.},
     title = {A low supply voltage SiGe LNA for ultra-wideband frontends},
   journal = {Microwave and Wireless Components Letters, IEEE},
    volume = {14},
    number = {10},
      year = {2004},
     pages = {469-471},
      issn = {1531-1309},
       doi = {10.1109/lmwc.2004.834556},
  abstract = {A low-power low-noise amplifier (LNA) for ultra-wideband (UWB) radio systems is presented. The microwave monolithic integrated circuit (MMIC) has been fabricated using a commercial 0.25-μm silicon-germanium (SiGe) bipolar CMOS (BiCMOS) technology. The amplifier uses peaking and feedback techniques to optimize its gain, bandwidth and impedance matching. It operates from 3.4 to 6.9GHz, which corresponds with the low end of the available UWB radio spectrum. The LNA has a peak gain of 10dB and a noise figure less than 5dB over the entire bandwidth. The circuit consumes only 3.5mW using a 1-V supply voltage. A figure of merit (FoM) for LNAs considering bandwidth, gain, noise, power consumption, and technology is proposed. The realized LNA circuit is compared with other recently published low-power LNA designs and shows the highest reported FoM.}
}