Design and Implementation of a Low-Power Low-Noise Biopotential Amplifier in 28 nm CMOS Technology with a Compact Die-Area of 2500 m
This paper presents a compact low-power, low-noise bioamplifier for multi-channel
electrode arrays, aimed at recording action potentials. The design we put forth attains a …
electrode arrays, aimed at recording action potentials. The design we put forth attains a …
28nm CMOS Technology-Based Ultra-Compact Tunable IR-UWB Transmitter for Neural Implants: Compliance With FCC, ECC, and Japanese Spectral Masks under …
This paper introduces a novel tunable oscillator-based impulse radio ultra-wideband
transmitter, implemented in 28 nm HPC TSMC CMOS technology. The transmitter employs a …
transmitter, implemented in 28 nm HPC TSMC CMOS technology. The transmitter employs a …
Preliminary Results of a Low-Power Wireless Telemetry Module for Long-Term µECOG Recordings
LP Gauthier, W Lemaire, K Gagnon… - 2022 20th IEEE …, 2022 - ieeexplore.ieee.org
This study presents the wireless communication module of an implantable multi-site
intracranial recording device composed of four arrays of 49 electrodes. The implant is …
intracranial recording device composed of four arrays of 49 electrodes. The implant is …
Neural Spike Compression through Salient Sample Extraction and Curve Fitting Dedicated to High-Density Brain Implants
MN Shahraki - 2024 - yorkspace.library.yorku.ca
This work proposes a data reduction framework, specific to the compression of extra-cellular
neuronal action potentials on brain-implantable microsystems. The proposed framework …
neuronal action potentials on brain-implantable microsystems. The proposed framework …