Keyphrases
Low Power
100%
Analog-to-digital Converter
100%
Neural Implants
100%
Programmable Gain
100%
Signal-to-noise Ratio
50%
Response Time
50%
High Signal-to-noise Ratio
50%
Recording Electrode
50%
Number of Channels
50%
Recording System
50%
Linear Response
50%
Electronic Interface
50%
Single-poly
50%
Spike Data
50%
Efficient Hardware Implementation
50%
Circuit Architecture
50%
Implant Interface
50%
90-nm CMOS Technology
50%
CMOS Process
50%
Field Potential
50%
Thermal Dissipation
50%
Physical Electronics
50%
Neuronal Ensembles
50%
Large Channel
50%
Neural Signal Processing
50%
Biocompatible Electrode
50%
Proposed Methodology
50%
Noise Fluctuation
50%
Architectural Level
50%
INIS
power
100%
electrodes
100%
implants
100%
gain
100%
noise
100%
signal-to-noise ratio
100%
interfaces
100%
analog-to-digital converters
100%
data
50%
levels
50%
increasing
50%
yields
50%
potentials
50%
brain
50%
processing
50%
implementation
50%
signals
50%
architecture
50%
fluctuations
50%
metals
50%
recording systems
50%
Engineering
Signal-to-Noise Ratio
100%
Analog-to-Digital Converter
100%
Front End
100%
Response Time
50%
Electronic Interface
50%
Recording System
50%
Power Bandwidth
50%
Neural Signal Processing
50%
Implant Interface
50%
Channel Count
50%
Thermal Dissipation
50%
Computer Science
Noise-to-Signal Ratio
100%
Analog-to-Digital Converter
100%
Response Time
50%
Power Bandwidth
50%
Neural Signal Processing
50%
Architecture Level
50%
Hardware Implementation
50%
Electronic Interface
50%
Neuroscience
Signal-to-Noise Ratio
100%
Signal Processing
50%