Author :
Nam, Ilku ; Moon, Hyunwon ; Bae, Jong-Dae ; Park, Byeong-Ha
Abstract :
In this paper, a wideband CMOS radio frequency (RF) front-end for various terrestrial mobile digital TV applications such as digital video broadcasting-handheld, terrestrial digital multimedia broadcasting, and integrated services digital broadcasting-terrestrial is proposed. To cover VHF III, UHF, and L bands and reduce the silicon area simultaneously, it employs three low-noise amplifiers and single-to-differential transconductors and shares the rest of the RF front-end. By applying ac-coupled current mirrored technique, the proposed RF front-end has good wideband performance, high linearity, and precise gain control. It is fabricated in 0.18 mum CMOS process and draws 15 mA~20 mA from a 1.8 V supply voltage for each band. It shows a gain of more than 29 dB, noise figure of lower than 2.5 dB, IIP2 of more than 30 dBm, IIP3 of more than -10 dBm for entire bands.
Keywords :
CMOS integrated circuits; broadband networks; current mirrors; digital television; mobile communication; CMOS process; L bands; UHF; VHF III; ac-coupled current mirrored technique; current 15 mA to 20 MA; low-noise amplifiers; multiband multistandard mobile TV tuners; single-to-differential transconductors; size 0.18 micron; terrestrial mobile digital TV application; voltage 1.8 V; wideband CMOS radio frequency front-end; Digital TV; Digital video broadcasting; Mobile TV; Multimedia communication; Radio broadcasting; Radio frequency; TV broadcasting; Tuners; Video sharing; Wideband; CMOS; TV; current; digital; front-end; mobile; multiband; multistandard; radio frequency (RF); tuners; wideband;
