High‐density implantable neural electrodes and chips for massive neural recordings
L Wang, Y Suo, J Wang, X Wang, K Xue, J An, X Sun… - Brain‐X, 2024 - Wiley Online Library
High‐density neural recordings with superior spatiotemporal resolution powerfully unveil
cellular‐scale neural communication, showing great promise in neural science, translational …
cellular‐scale neural communication, showing great promise in neural science, translational …
A 370-nW Quad-Channel Multi-Mode Bio-Signal Acquisition AFE with 2.9-µVrms Input Noise
This paper presents a reconfigurable 4-channel electromyography, electrocardiogram, or
electroencephalography bio-signal acquisition analog frontend (Bio-AFE), which is part of a …
electroencephalography bio-signal acquisition analog frontend (Bio-AFE), which is part of a …
A 370-nW Bio-AFE With 2.9-Vrms Input Noise in an Octa-Channel System-in-Package for Multimode Bio-Signal Acquisition
A fully integrated and reconfigurable octa-channel bio-signal acquisition system-in-package
(SiP), which enables the wireless measurement of electromyography (EMG) …
(SiP), which enables the wireless measurement of electromyography (EMG) …
Trend investigation of biopotential recording front-end channels for invasive and non-invasive applications
This paper presents the trend of biopotential recording front-end channels developed from
the 1970s to the 2020s while describing a basic background on the front-end channel …
the 1970s to the 2020s while describing a basic background on the front-end channel …
A 26-G Input-Impedance 112-dB Dynamic-Range Two-Step Direct-Conversion Front-End With Improved -Modulation for Wearable Biopotential Acquisition
This article presents a high dynamic range (DR) direct conversion front-end (Direct-FE) IC
enabling the wearable acquisition of weak bio-potentials superposed onto large motion …
enabling the wearable acquisition of weak bio-potentials superposed onto large motion …
[HTML][HTML] A 35 nV/√ Hz Analog Front-End Circuit with Adjustable Bandwidth and Gain in UMC 40 nm CMOS for Biopotential Signal Acquisition
L Liu, B Wang, Y Xu, X Lin, W Yang, Y Ding - Sensors, 2024 - mdpi.com
This paper presents a 35 nV/√ Hz analog front-end (AFE) circuitdesigned in the UMC 40 nm
CMOS technology for the acquisition of biopotential signal. The proposed AFE consists of a …
CMOS technology for the acquisition of biopotential signal. The proposed AFE consists of a …
A 64.3 dB THD, 26 nV/Hz Bio-Potential Readout Analog-Front-End Amplifier With a Gm-C Integrator-Implanted DC Servo Loop, and a Bulk-Driven Ripple …
K Wen, S Liu, L Zhong, Y Shen… - IEEE Transactions on …, 2023 - ieeexplore.ieee.org
This paper presents aC integrator-implanted DC servo loop (GMCI2-DSL) and a bulk-driven
ripple reduction loop (BD-RRL) for bio-potential readout analog-front-end (AFE) amplifier …
ripple reduction loop (BD-RRL) for bio-potential readout analog-front-end (AFE) amplifier …
A PVT-Robust and 73.9 mHz High-Pass Corner Instrumentation Amplifier with an SCF-SCR-PR Hybrid Feedback Resistor
H Xu, Y Liu, Y Duan, T Li, J Zhang, Z Li, H Zhang - Electronics, 2024 - mdpi.com
Analog front-end (AFE) circuits play an important role in the acquisition of physiological
signals with low-level amplitudes (from tens of μV to tens of mV) and broadband low …
signals with low-level amplitudes (from tens of μV to tens of mV) and broadband low …
An Orthogonal Code-Division Multiplexing AFE with low Channel-Gain-Mismatch by Input Capacitors Calibration Technology
J Yin, L Liu, X Liu, X Liao, Y Zhang… - 2024 IEEE Biomedical …, 2024 - ieeexplore.ieee.org
An orthogonal code-division multiplexing analog front-end (AFE) for electroencephalogram
(EEG) acquisition with low inter-channel gain mismatch is proposed in this paper. By …
(EEG) acquisition with low inter-channel gain mismatch is proposed in this paper. By …
[PDF][PDF] Using a New Hybrid Method for Characteristics Classifying of Limb Movements in Brain-Computer Interface Applications
M Iyzadpanahi, M Yousefi… - International Journal of …, 2023 - research.iaun.ac.ir
The interface between brain and computer has received increasing attention in the last
decade of scientific progress. The most common use of this type of technology is the direct …
decade of scientific progress. The most common use of this type of technology is the direct …