This paper presents the design of a new Digital Variable Gain Amplifier cell (DVGA). The proposed circuit based on transconductance, gm, amplifier and a transconductance amplifier is analyzed and designed for a cognitive radio receiver. The variable-gain amplifier (VGA) proposed consists of a digital control block, an auxiliary pair to retain a constant current density, and offers a gain-independent bandwidth (BW). A novel cell structure is designed for high gain, high BW, low power consumption and low Noise Figure (NF). The Heuristic Method is used to optimize the proposed circuit performance for high gain, low noise and low power consumption. This circuit is implemented and simulated using device-level description of TSMC 0.18[Formula: see text][Formula: see text]m CMOS process. Simulation results show that the DVGA can provide a gain variation range of 54[Formula: see text]dB (from 54[Formula: see text]dB to 0[Formula: see text]dB) with a 3[Formula: see text]dB BW over more than 110[Formula: see text]MHz. The circuit consumes the maximum power of 0.65[Formula: see text]mW from a 1.8[Formula: see text]V supply.
This paper presents a low-power Variable Gain Amplifier (VGA) design in TSMC 0.18µm process. The proposed circuit is composed of tow transimpedance amplifiers and a transconductance amplifier. The VGA control is ensured by using the source degeneration R S with the feedback resistor R f . The proposed circuit is designed for low power, low noise and high bandwidth. The studied circuit provides a minimum and a maximum gain of respectively -33 dB and 25.6 dB over more than 133MHz bandwidth. The simulation structure provides less than 20 dB of noise figure (NF). The VGA consumes approximately 40µW under 1V power supply.
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