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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

360 related items for PubMed ID: 33018876

  • 1. A Low-power and Low-noise Multi-purpose Chopper Amplifier with High CMRR and PSRR.
    Shad E, Molinas M, Ytterdal T.
    Annu Int Conf IEEE Eng Med Biol Soc; 2020 Jul; 2020():3998-4001. PubMed ID: 33018876
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  • 2. Fully Integrated Biopotential Acquisition Analog Front-End IC.
    Song H, Park Y, Kim H, Ko H.
    Sensors (Basel); 2015 Sep 30; 15(10):25139-56. PubMed ID: 26437404
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  • 3. Power-to-Noise Optimization in the Design of Neural Recording Amplifier Based on Current Scaling, Source Degeneration Resistor, and Current Reuse.
    Wang Z, Wang X, Shu G, Yin M, Huang S, Yin M.
    Biosensors (Basel); 2024 Feb 19; 14(2):. PubMed ID: 38392030
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  • 5. Low-Frequency Noise and Offset Rejection in DC-Coupled Neural Amplifiers: A Review and Digitally-Assisted Design Tutorial.
    Bagheri A, Salam MT, Perez Velazquez JL, Genov R.
    IEEE Trans Biomed Circuits Syst; 2017 Feb 19; 11(1):161-176. PubMed ID: 27305685
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  • 6. Chopper-Stabilized Instrumentation Amplifier with Automatic Frequency Tuning Loop.
    Wu CM, Chen HC, Yen MY, Yang SC.
    Micromachines (Basel); 2018 Jun 08; 9(6):. PubMed ID: 30424222
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  • 7. A Micropower Chopper CBIA Using DSL-Embedded Input Stage With 0.4 V EO Tolerance for Dry-Electrode Biopotential Recording.
    Thanapitak S, Surakampontorn W, Sawigun C.
    IEEE Trans Biomed Circuits Syst; 2023 Jun 08; 17(3):458-469. PubMed ID: 37023150
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  • 8. A 2.55 NEF 76 dB CMRR DC-Coupled Fully Differential Difference Amplifier Based Analog Front End for Wearable Biomedical Sensors.
    Zhao Y, Shang Z, Lian Y.
    IEEE Trans Biomed Circuits Syst; 2019 Oct 08; 13(5):918-926. PubMed ID: 31247560
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  • 10. Design of CMOS Analog Front-End Local-Field Potential Chopper Amplifier With Stimulation Artifact Tolerance for Real-Time Closed-Loop Deep Brain Stimulation SoC Applications.
    Wu CY, Huang CW, Chen YW, Lai CK, Hung CC, Ker MD.
    IEEE Trans Biomed Circuits Syst; 2024 Jun 08; 18(3):539-551. PubMed ID: 38198255
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  • 11. A TDM-Based 16-Channel AFE ASIC With Enhanced System-Level CMRR for Wearable EEG Recording With Dry Electrodes.
    Tang T, Goh WL, Yao L, Gao Y.
    IEEE Trans Biomed Circuits Syst; 2020 Jun 08; 14(3):516-524. PubMed ID: 32167908
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  • 12. A 0.67 μV-IIRN super-T Ω-Z IN 17.5 μW/Ch Active Electrode With In-Channel Boosted CMRR for Distributed EEG Monitoring.
    Dabbaghian A, El-Hajj Y, Ghalamboran M, Grau G, Kassiri H.
    IEEE Trans Biomed Circuits Syst; 2024 Feb 08; 18(1):3-15. PubMed ID: 37535484
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  • 14. A CMOS power-efficient low-noise current-mode front-end amplifier for neural signal recording.
    Wu CY, Chen WM, Kuo LT.
    IEEE Trans Biomed Circuits Syst; 2013 Apr 08; 7(2):107-14. PubMed ID: 23853293
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  • 15. A 160 μW 8-Channel Active Electrode System for EEG Monitoring.
    Jiawei Xu, Yazicioglu RF, Grundlehner B, Harpe P, Makinwa KA, Van Hoof C.
    IEEE Trans Biomed Circuits Syst; 2011 Dec 08; 5(6):555-67. PubMed ID: 23852553
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  • 16. Low noise and high CMRR front-end amplifier dedicated to portable EEG acquisition system.
    Chebli R, Sawan M.
    Annu Int Conf IEEE Eng Med Biol Soc; 2013 Dec 08; 2013():2523-6. PubMed ID: 24110240
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