A V‐band digitally controlled low noise variable gain amplifier with 3.5° phase variation in 28‐nm bulk CMOS

This paper presents a V‐band digitally controlled low noise variable gain amplifier (LNVGA) in 28‐nm bulk CMOS process. The amplifier includes three stages and the first stage is used to realize wideband high gain and low noise figure (NF). The gain control is implemented in the second and third sta...

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Bibliographic Details
Published inMicrowave and optical technology letters Vol. 65; no. 9; pp. 2488 - 2493
Main Authors Lin, Haitao, Li, Hui‐Yang, Xu, Jin‐Xu, Zhang, Xiuyin
Format Journal Article
LanguageEnglish
Published New York Wiley Subscription Services, Inc 01.09.2023
Subjects
28‐nm CMOS
Amplification
Amplifiers
CMOS
Degeneration
High gain
Low noise
low noise amplifier
low‐phase distortion
Power consumption
Response functions
Steering
Topology
Variable gain
variable gain amplifier
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Summary:This paper presents a V‐band digitally controlled low noise variable gain amplifier (LNVGA) in 28‐nm bulk CMOS process. The amplifier includes three stages and the first stage is used to realize wideband high gain and low noise figure (NF). The gain control is implemented in the second and third stages with current steering and split cascode topology, respectively. A source degeneration inductor and a series inductor are introduced to reduce the phase variation in the second stage. The phase response function is analyzed, and the phase reduction of 1.2° is achieved. Moreover, with the combination of these two different topologies, the phase variation can be further reduced. The measurement results show the LNVGA has a peak gain of 16 dB with a 3‐dB bandwidth of 45–59 GHz. The measured gain control range is 0–16 dB in 16 different gain states and the minimum phase variation is 3.5° with power consumption of 23 mW.
ISSN:0895-2477
1098-2760
DOI:10.1002/mop.33733