@conference {6942051, title = {A 40-67GHz power amplifier with 13dBm PSAT and 16\% PAE in 28 nm CMOS LP}, booktitle = {European Solid State Circuits Conference (ESSCIRC), ESSCIRC 2014 - 40th}, year = {2014}, month = {Sept}, pages = {179-182}, keywords = {Bandwidth, CMOS analogue integrated circuits, CMOS integrated circuits, CMOS LP, differential amplifiers, efficiency 16 percent, field effect MIMIC, frequency 40 GHz to 67 GHz, Gain, Impedance, impedance matching, inductors, low-power devices, low-power electronics, millimetre wave power amplifiers, millimetre wave resonators, mm-wave PAs, neutralized common source stages, Norton transformations, output matching networks, PAE, Power generation, PSAT, size 28 nm, two-stage differential PA, wideband amplifiers, wideband inductively coupled resonators, wideband power amplifiers, wireless applications}, issn = {1930-8833}, doi = {10.1109/ESSCIRC.2014.6942051}, author = {Junlei Zhao and Bassi, M. and Bevilacqua, A. and Ghilioni, A. and Mazzanti, A. and Svelto, F.} } @article {1603590, title = {A fully integrated differential CMOS LNA for 3-5-GHz ultrawideband wireless receivers}, journal = {IEEE Microwave and Wireless Components Letters}, volume = {16}, number = {3}, year = {2006}, pages = {134 -136}, keywords = {0.13 micron, 1 dB, 1.5 V, 11 mA, 3 to 5 GHz, 3.5 dB, 9.5 dB, CMOS integrated circuits, CMOS technology, differential amplifiers, differential CMOS, integrated circuit noise, integrated differential low-power amplifier, ladder input network, LNA, low noise amplifiers, low-noise amplifier, microwave receivers, minimum noise figure, MMIC amplifiers, peak power gain, radio receivers, ultra wideband communication, ultra wideband system, ultra wideband wireless receiver, UWB}, issn = {1531-1309}, doi = {10.1109/LMWC.2006.869855}, author = {Bevilacqua, A. and Sandner, C. and Gerosa, A. and Neviani, A.} }