%0 Journal Article %J IEEE Microwave and Wireless Components Letters %D 2006 %T A fully integrated differential CMOS LNA for 3-5-GHz ultrawideband wireless receivers %A Bevilacqua, A. %A Sandner, C. %A Gerosa, A. %A Neviani, A. %K 0.13 micron %K 1 dB %K 1.5 V %K 11 mA %K 3 to 5 GHz %K 3.5 dB %K 9.5 dB %K CMOS integrated circuits %K CMOS technology %K differential amplifiers %K differential CMOS %K integrated circuit noise %K integrated differential low-power amplifier %K ladder input network %K LNA %K low noise amplifiers %K low-noise amplifier %K microwave receivers %K minimum noise figure %K MMIC amplifiers %K peak power gain %K radio receivers %K ultra wideband communication %K ultra wideband system %K ultra wideband wireless receiver %K UWB %B IEEE Microwave and Wireless Components Letters %V 16 %P 134 -136 %R 10.1109/LMWC.2006.869855 %0 Journal Article %J IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS. I, REGULAR PAPERS %D 2004 %T A Fully-Integrated Dual-Channel Log-Domain Programmable Preamplifier and Filter for an Implantable Cardiac Pacemakers %A Gerosa, A. %A Maniero, A. %A Neviani, A. %B IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS. I, REGULAR PAPERS %V 51 %P 1916–1925 %0 Journal Article %J IEEE JOURNAL OF SOLID-STATE CIRCUITS %D 2004 %T A Fully-Integrated Two-Channel A/D Interface for the Acquisition of Cardiac Signals in Implantable Pacemakers %A Gerosa, A. %A Neviani, A. %A Maniero, A. %B IEEE JOURNAL OF SOLID-STATE CIRCUITS %V 39 %P 1083–1093 %R http://dx.doi.org/10.1109/JSSC.2004.829921 %0 Journal Article %J IEE PROCEEDINGS. CIRCUITS, DEVICES AND SYSTEMS %D 2003 %T Frequency Offset Compensation in Fractionally Spaced Equalization %A Gerosa, A. %A Xotta, A. %A Neviani, A. %A Mian, G.A. %B IEE PROCEEDINGS. CIRCUITS, DEVICES AND SYSTEMS %V 150 %P 134–140 %0 Conference Paper %B ESSCIRC %D 2003 %T A Fully-Integrated Two-Channel A/D Interface for the Acquisition of Cardiac Signals in Implantable Pacemakers %A Gerosa, A. %A Maniero, A. %A Neviani, A. %B ESSCIRC %V 1 %P 157–160 %8 09/2003