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A 21.3-to-30.1 GHz Reversed Current-reuse LNA with Load Regulation Enhancing Wideband Noise and Input Matching
This paper presents a wideband simultaneous noise and input matching (SNIM) low-noise amplifier (LNA) with load regulation and g_{\mathrm{m}}-boosting techniques based on a reversed low power three-stage current-reuse topology. Based on magnetically coupled resonator (MCR), the load regulation techn...
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| creator | Liang, Chenglong Gan, Suyuan Tang, Bingjun Gao, Zixun Dong, Qian Zhao, Ya Xie, Yi Xin, Youze Zhang, Bing Li, Dan Geng, Li |
| description | This paper presents a wideband simultaneous noise and input matching (SNIM) low-noise amplifier (LNA) with load regulation and g_{\mathrm{m}}-boosting techniques based on a reversed low power three-stage current-reuse topology. Based on magnetically coupled resonator (MCR), the load regulation technology also reduces the high frequency noise and extends the response bandwidth of the gain. Fabricated in 55-nm CMOS technology, the LNA achieves a measured power gain of 16.5 dB at 28 GHz with a -3-dB bandwidth (BW) of 8.8 GHz. Within the entire band of interest, the measured noise figure (NF) matching (\mathrm{NF}^{-} \mathrm{NF}_{\min }) is less than 0.2 dB and NF falls within the range of 4-4.5 dB. The LNA consumes only 3.38 mW from a 1.2-V supply, with a chip area of 550 \mu \mathrm{~m} \times 570 \mu \mathrm{~m}. |
| doi_str_mv | 10.1109/ESSERC62670.2024.10719523 |
| format | conference_proceeding |
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Based on magnetically coupled resonator (MCR), the load regulation technology also reduces the high frequency noise and extends the response bandwidth of the gain. Fabricated in 55-nm CMOS technology, the LNA achieves a measured power gain of 16.5 dB at 28 GHz with a -3-dB bandwidth (BW) of 8.8 GHz. Within the entire band of interest, the measured noise figure (NF) matching (\mathrm{NF}^{-} \mathrm{NF}_{\min }) is less than 0.2 dB and NF falls within the range of 4-4.5 dB. 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Based on magnetically coupled resonator (MCR), the load regulation technology also reduces the high frequency noise and extends the response bandwidth of the gain. Fabricated in 55-nm CMOS technology, the LNA achieves a measured power gain of 16.5 dB at 28 GHz with a -3-dB bandwidth (BW) of 8.8 GHz. Within the entire band of interest, the measured noise figure (NF) matching (\mathrm{NF}^{-} \mathrm{NF}_{\min }) is less than 0.2 dB and NF falls within the range of 4-4.5 dB. The LNA consumes only 3.38 mW from a 1.2-V supply, with a chip area of 550 \mu \mathrm{~m} \times 570 \mu \mathrm{~m}.</abstract><pub>IEEE</pub><doi>10.1109/ESSERC62670.2024.10719523</doi></addata></record> |
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| identifier | EISSN: 2643-1319 |
| ispartof | 2024 IEEE European Solid-State Electronics Research Conference (ESSERC), 2024, p.281-284 |
| issn | 2643-1319 |
| language | eng |
| recordid | cdi_ieee_primary_10719523 |
| source | IEEE Xplore All Conference Series |
| subjects | CMOS technology Current measurement current-reuse Gain High frequency Impedance matching LNA load regulation Noise Noise matching Noise measurement Regulation Topology transformer Wideband |
| title | A 21.3-to-30.1 GHz Reversed Current-reuse LNA with Load Regulation Enhancing Wideband Noise and Input Matching |
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