Abstract
In this paper, a high gain low voltage low power Complementary Metal Oxide Semiconductor (CMOS) Low-noise Amplifier (LNA) using Chartered 0.18[Formula: see text][Formula: see text]m CMOS process for Ultra-wideband (UWB) receiver applications is presented. A novel multiple-feedback network constructed by the shunt feedback resistor with a transformer is adopted to realize desirable bandwidth extension and less chip area occupation in the common-source stage. All the cascaded transistors are configured by current-reuse structure and adjusted by forward body bias technique to further reduce supply voltage and power dissipation. The post-layout simulation results demonstrate that the proposed 3.4–10.1[Formula: see text]GHz UWB LNA accomplishes a maximum gain of 14.26[Formula: see text]dB with only 2.33[Formula: see text]mW power consumption at 0.8[Formula: see text]V supply voltage, while Noise Figure (NF) is 1.49–3.41[Formula: see text]dB and the chip area is 0.46[Formula: see text]mm2 including test pads (core area is 0.23[Formula: see text]mm2).
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