A 1.8V 0.18μm CMOS analog front end consists of a chopper stabilized low noise preamplifier, a capacitive negative feedback gain stage and a variable gain amplifier with digital tunable low pass filter bank is presented. With optimized gain distribution, the analog front end eliminates the 1/f noise by chopper stabilization without the DC offset cancellation servo loops in conventional chopper amplifier, combines the advantages from chopper stabilization and capacitive negative feedback to achieve both low 1/f noise and compact structure. The simulation results show that the proposed analog front end achieves 32nV/Hz1/2 input referred thermal noise floor with 1.8μA total current from a 1.8V supply, 20kHz chopping frequency, and in-band gain...
Project (M.S., Electrical and Electronic Engineering) -- California State University, Sacramento, 20...
This paper presents an active electrode system for gel-free biopotential EEG signal acquisition. The...
A monolithically integrated CMOS bioamplifier is presented in this paper for EEG recording applicati...
A 1.8V 0.18μm CMOS analog front end consists of a chopper stabilized low noise preamplifier, a capac...
There is a growing demand for low-power, small-size and ambulatory biopotential acquisition systems....
This paper presents a fully integrated Front-end, low noise amplifier, dedicated to the processing o...
This paper presents a low-noise, low-power fully differential chopper-modulated front-end circuit in...
A new digital programmable CMOS analog front-end (AFE) IC for measuring electroencephalograph or ele...
In this work, a 4-channel Analog Front-End (AFE) circuit has been proposed for EEG signal recording....
This paper presents an active electrode system for gel-free biopotential EEG signal acquisition. The...
This paper presents a power efficient analog front-end (AFE) for electrocardiogram (ECG) signal moni...
This paper describes a low-noise, low-power and low-voltage analog front-end amplifier integrated in...
This paper proposes a low-power inverter-based chopper instrumentation amplifier (IA) for ECG applic...
\u3cp\u3eThis paper presents a low-voltage current-reuse chopper-stabilized frontend amplifier for f...
In this paper, we present a novel instrumentation amplifier (INA) topology for mobile bio-medical da...
Project (M.S., Electrical and Electronic Engineering) -- California State University, Sacramento, 20...
This paper presents an active electrode system for gel-free biopotential EEG signal acquisition. The...
A monolithically integrated CMOS bioamplifier is presented in this paper for EEG recording applicati...
A 1.8V 0.18μm CMOS analog front end consists of a chopper stabilized low noise preamplifier, a capac...
There is a growing demand for low-power, small-size and ambulatory biopotential acquisition systems....
This paper presents a fully integrated Front-end, low noise amplifier, dedicated to the processing o...
This paper presents a low-noise, low-power fully differential chopper-modulated front-end circuit in...
A new digital programmable CMOS analog front-end (AFE) IC for measuring electroencephalograph or ele...
In this work, a 4-channel Analog Front-End (AFE) circuit has been proposed for EEG signal recording....
This paper presents an active electrode system for gel-free biopotential EEG signal acquisition. The...
This paper presents a power efficient analog front-end (AFE) for electrocardiogram (ECG) signal moni...
This paper describes a low-noise, low-power and low-voltage analog front-end amplifier integrated in...
This paper proposes a low-power inverter-based chopper instrumentation amplifier (IA) for ECG applic...
\u3cp\u3eThis paper presents a low-voltage current-reuse chopper-stabilized frontend amplifier for f...
In this paper, we present a novel instrumentation amplifier (INA) topology for mobile bio-medical da...
Project (M.S., Electrical and Electronic Engineering) -- California State University, Sacramento, 20...
This paper presents an active electrode system for gel-free biopotential EEG signal acquisition. The...
A monolithically integrated CMOS bioamplifier is presented in this paper for EEG recording applicati...