Abstract :
This paper describes the design and simulation of a wideband monolithic single-ended-input/differential-output low noise amplifier, with active balun and digital gain control integrated on the same die. The digital circuit comprises an internal 6 bit DAC and a 4 bit input logic control, allowing the gain response to have a linear approximation with 16 dynamic levels. The fully integrated circuit was implemented in a 0.35mun AMS CMOS standard technology and simulated with BSIM3 model The circuit presents a 16dB dynamic gain variation in a 1.4-1.7GHz band (25dB of maximum differential gain), a phase and transducer gain magnitude errors less than 1.6" and 0.2dB, respectively, in a 300MHz span, a 1.24dB noise figure at maximum gain, a -23dBm input-referred ldB compression point at maximum gain, a -12dBm IIP3, 50 input and output match, while drawing less than 7.5mA from a 1.7V power supply, including analog and digital system.
Keywords :
CMOS digital integrated circuits; gain control; low noise amplifiers; CMOS; active balun; bandwidth 1.4 GHz to 1.7 GHz; linear digital gain control; low-noise amplifier; voltage 1.7 V; Active noise reduction; CMOS analog integrated circuits; CMOS digital integrated circuits; CMOS technology; Circuit simulation; Gain control; Impedance matching; Integrated circuit modeling; Integrated circuit noise; Low-noise amplifiers; CMOS RFIC; LNA; balun; front-end; receiver; wideband; wireless communications;
