A Low-Power 0.7 32-Channel Mixed-Signal Circuit for ECoG Recordings
S Robinet, P Audebert, G Regis… - IEEE Journal on …, 2011 - ieeexplore.ieee.org
Monitoring of electrocorticography signals using multi-electrode array creates new
opportunities for neural prosthetic applications. In this paper, we present a 32-channel …
opportunities for neural prosthetic applications. In this paper, we present a 32-channel …
85 dB dynamic range 1.2 mW 156 kS/s biopotential recording IC for high-density ECoG flexible active electrode array
We present the design, implementation, and experimental characterization of a low-noise
low-power biopotential recording integrated circuit (IC) in support of a fully implantable, high …
low-power biopotential recording integrated circuit (IC) in support of a fully implantable, high …
WIMAGINE: A wireless, low power, 64-channel ECoG recording platform for implantable BCI applications
G Charvet, M Foerster, S Filipe… - 2011 5th …, 2011 - ieeexplore.ieee.org
WIMAGINE is a wireless low power 64-channel data acquisition system designed for
Electrocorticogram (ECoG) recording. The system is based on a custom integrated circuit …
Electrocorticogram (ECoG) recording. The system is based on a custom integrated circuit …
A minimally invasive 64-channel wireless μECoG implant
<? Pub Dtl=""?> Emerging applications in brain–machine interface systems require high-
resolution, chronic multisite cortical recordings, which cannot be obtained with existing …
resolution, chronic multisite cortical recordings, which cannot be obtained with existing …
24.1 A miniaturized 64-channel 225μW wireless electrocorticographic neural sensor
Substantial improvements in neural-implant longevity are needed to transition brain-
machine interface (BMI) systems from research labs to clinical practice. While action …
machine interface (BMI) systems from research labs to clinical practice. While action …
Development of a fully implantable recording system for ecog signals
J Pistor, J Hoeffmann, D Rotermund… - … , Automation & Test …, 2013 - ieeexplore.ieee.org
This paper presents a fully implantable neural recording system for the simultaneous
recording of 128 channels. The electrocorticography (ECoG) signals are sensed with 128 …
recording of 128 channels. The electrocorticography (ECoG) signals are sensed with 128 …
A 256-Channel Actively-Multiplexed µECoG Implant with Column-Parallel Incremental ADCs Employing Bulk-DACs in 22-nm FDSOI Technology
Electrocorticography (ECoG) recording is a non-penetrating electrophysiology technique
that achieves a good balance between spatial resolution, brain coverage and invasiveness …
that achieves a good balance between spatial resolution, brain coverage and invasiveness …
WIMAGINE: wireless 64-channel ECoG recording implant for long term clinical applications
CS Mestais, G Charvet, F Sauter-Starace… - IEEE transactions on …, 2014 - ieeexplore.ieee.org
A wireless 64-channel ElectroCorticoGram (ECoG) recording implant named WIMAGINE
has been designed for various clinical applications. The device is aimed at interfacing a …
has been designed for various clinical applications. The device is aimed at interfacing a …
Minimally-invasive neural interface for distributed wireless electrocorticogram recording systems
This paper presents a minimally-invasive neural interface for distributed wireless
electrocorticogram (ECoG) recording systems. The proposed interface equips all necessary …
electrocorticogram (ECoG) recording systems. The proposed interface equips all necessary …
Actively multiplexed μECoG brain implant system with incremental-ΔΣ ADCs employing bulk-DACs
Fundamental neuroscience research and high-performance neuro-prostheses require large-
scale brain interfaces with ever-greater spatial resolution across a large cortex coverage …
scale brain interfaces with ever-greater spatial resolution across a large cortex coverage …