This paper presents a low-noise, low-power fully differential chopper-modulated front-end circuit intended for ECoG signal recording. Among other features, it uses a subthreshold source-follower biquad in the forward path to reduce noise and avoid the implementation of a ripple rejection loop. The prototype was designed in 0.18μm CMOS technology with a 1V supply. Post-layout simulations were carried out showing a power consumption below 2μW and an integrated input-referred noise of 0.75μV rms , with a noise floor below 50 nV√Hz, over a bandwidth from 1 to 200Hz, for a noise efficiency factor of 2.7.Ministerio de Economía y Empresa TEC2016-80923-
Within neural monitoring systems, the front-end amplifier forms the critical element for signal dete...
This paper presents a scalable neural recording analog front-end architecture enabling simultaneous ...
A low-voltage and low-power front-end for miniaturized, wearable EEG systems is presented. The instr...
A 1.8V 0.18μm CMOS analog front end consists of a chopper stabilized low noise preamplifier, a capac...
This paper presents a sub-μW ac-coupled reconfigurable front-end for the purpose of neural recording...
This paper presents a fully integrated Front-end, low noise amplifier, dedicated to the processing o...
In this article, by choosing and optimizing suitable structure in each stage, we have designed a mul...
In this dissertation a full custom Analog Front End (AFE) integrated circuit (IC) for an Electroence...
The goal of neuromodulation is to alter neural activity through targeted delivery of a stimulus to s...
There is a growing demand for low-power, small-size and ambulatory biopotential acquisition systems....
In this work, a 4-channel Analog Front-End (AFE) circuit has been proposed for EEG signal recording....
In this paper an analog front-end for the multi-channel implantable recording of neural signals is p...
Thesis (Master's)--University of Washington, 2012Micropower amplifiers for neural sensing and other ...
This brief presents a new architecture for an ultra-low power and area-efficient 8-channel prototype...
The continuous real-time monitoring of diverse physical parameters using biosignals like ECG and EEG...
Within neural monitoring systems, the front-end amplifier forms the critical element for signal dete...
This paper presents a scalable neural recording analog front-end architecture enabling simultaneous ...
A low-voltage and low-power front-end for miniaturized, wearable EEG systems is presented. The instr...
A 1.8V 0.18μm CMOS analog front end consists of a chopper stabilized low noise preamplifier, a capac...
This paper presents a sub-μW ac-coupled reconfigurable front-end for the purpose of neural recording...
This paper presents a fully integrated Front-end, low noise amplifier, dedicated to the processing o...
In this article, by choosing and optimizing suitable structure in each stage, we have designed a mul...
In this dissertation a full custom Analog Front End (AFE) integrated circuit (IC) for an Electroence...
The goal of neuromodulation is to alter neural activity through targeted delivery of a stimulus to s...
There is a growing demand for low-power, small-size and ambulatory biopotential acquisition systems....
In this work, a 4-channel Analog Front-End (AFE) circuit has been proposed for EEG signal recording....
In this paper an analog front-end for the multi-channel implantable recording of neural signals is p...
Thesis (Master's)--University of Washington, 2012Micropower amplifiers for neural sensing and other ...
This brief presents a new architecture for an ultra-low power and area-efficient 8-channel prototype...
The continuous real-time monitoring of diverse physical parameters using biosignals like ECG and EEG...
Within neural monitoring systems, the front-end amplifier forms the critical element for signal dete...
This paper presents a scalable neural recording analog front-end architecture enabling simultaneous ...
A low-voltage and low-power front-end for miniaturized, wearable EEG systems is presented. The instr...