Journal
IEEE MICROWAVE AND WIRELESS TECHNOLOGY LETTERS
Volume 33, Issue 1, Pages 51-54Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LMWC.2022.3201087
Keywords
Noise measurement; Dual band; Transformers; Impedance matching; Resonant frequency; Wideband; Wireless communication; Complimentary metal-oxide-semiconductor (CMOS); dual band; low-noise amplifier (LNA); noise figure (NF); series-shunt feedback
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This letter presents a concurrent dual-band low-noise amplifier for multiband 5G wireless systems, which achieves wideband input power matching and improved noise performance through the use of a shunt-series feedback structure and modified input network. The designed dual-band LNA in the 65-nm CMOS process demonstrates excellent performance.
This letter presents a concurrent dual-band low-noise amplifier (LNA) operating at 28 and 39 GHz for multiband 5G wireless systems. In order to achieve a wideband input power matching, the LNA adopts a shunt-series feedback structure. Detailed noise analysis of the shunt-series transformer feedback LNA is proposed to guide the noise-optimized design, and a modified input network is proposed to improve the noise matching. The modified method also enhances the transconductance of the input stage, thus suppressing the noise of the subsequent circuit and obtaining a better overall noise figure (NF). Based on this input structure, a dual-band LNA with excellent NF is designed in a 65-nm complimentary metal-oxide-semiconductor (CMOS) process. This dual-band LNA achieves 18.1/18.4-dB gain and 3.1/3.8-dB NF at 28/39 GHz, consuming 10.2 mW from a 1.0-V power supply.
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