Design Analysis of a Modified Current-Reuse Low-Power Wideband Single-Ended CMOS LNA

This paper presents the design analysis of a low-power wideband single-ended CMOS low-noise amplifier (LNA). The proposed topology is based on a modified current- reuse circuit, in which two-stage common-source (CS) amplifiers consume the same DC current and are isolated from each other by large MIMCAPs, which results in good performance with low power consumption. The proposed circuit achieves a bandwidth of 2.5 GHz, suitable for several wireless communication standards such as GSM, WLAN, and Bluetooth. In the first stage, a current-reuse circuit with shunt feedback is used to satisfy input impedance matching and signal amplification with minimal noise injection. A common source (CS) with a source follower circuit forms the second stage to improve the noise figure (NF), harmonic distortion, and output impedance matching. The proposed LNA is designed in 65 nm CMOS technology and covers a frequency range of 0.17–2.68 GHz. The proposed LNA achieves a maximum gain of 17.24 dB, a minimum NF of 2.67 dB, a maximum IIP3 of −14.9 dBm, and input and output return losses of less than −10 dB. The power consumption of the proposed LNA is 3.52 mW from a 1 V power supply, and the core area is 0.3 mm2.