A low power and low noise reconfigurable analog front-end (AFE) system on a chip (SoC) for biosignal acquisition is presented. The presented AFE can be reconfigured for use in electropotential, bioimpedance, electrochemical, and photoelectrical modes. The advanced healthcare services based on multiparameter physiological biosignals can be easily implemented with these multimodal and highly reconfigurable features of the proposed system. The reconfigurable gain and input referred noise of the core instrumentation amplifier block are 25 dB to 52 dB, and 1 μVRMS, respectively. The power consumption of the analog blocks in one readout channel is less than 52 μW. The reconfigurable capability among various modes of applications including electro...
The use of wearable devices for the monitoring of biological potentials is an ever-growing area of r...
This work describes a bio-potential acquisition system for portable ubiquitous healthcare applicatio...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
A low power and low noise reconfigurable analog front-end (AFE) system on a chip (SoC) for biosignal...
Abstract: Development of in vivo electronic devices has been the top priority of medical device deve...
Wearable devices for monitoring vital signs such as heart-rate, respiratory rate and blood pressure ...
Wearable devices for monitoring vital signs such as heart-rate, respiratory rate and blood pressure ...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper presents a digital active electrode (DAE) system for multi-parameter biopotential signal ...
In the emerging field of wearable systems for remote monitoring of physiological parameters, the mea...
This paper presents a generic programmable analog front-end (AFE) for acquisition and digitization o...
A 2.88nJ/Conversion low energy biopotential acquisition system is designed for portable healthcare d...
In wearable health monitoring system, the energy consumption is dominated by the transmitter. These ...
This paper presents a generic programmable analog front-end (AFE) for acquisition and digitization o...
This paper presents a low power reconfigurable IC for wearable health devices that perform bio-imped...
The use of wearable devices for the monitoring of biological potentials is an ever-growing area of r...
This work describes a bio-potential acquisition system for portable ubiquitous healthcare applicatio...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
A low power and low noise reconfigurable analog front-end (AFE) system on a chip (SoC) for biosignal...
Abstract: Development of in vivo electronic devices has been the top priority of medical device deve...
Wearable devices for monitoring vital signs such as heart-rate, respiratory rate and blood pressure ...
Wearable devices for monitoring vital signs such as heart-rate, respiratory rate and blood pressure ...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper presents a digital active electrode (DAE) system for multi-parameter biopotential signal ...
In the emerging field of wearable systems for remote monitoring of physiological parameters, the mea...
This paper presents a generic programmable analog front-end (AFE) for acquisition and digitization o...
A 2.88nJ/Conversion low energy biopotential acquisition system is designed for portable healthcare d...
In wearable health monitoring system, the energy consumption is dominated by the transmitter. These ...
This paper presents a generic programmable analog front-end (AFE) for acquisition and digitization o...
This paper presents a low power reconfigurable IC for wearable health devices that perform bio-imped...
The use of wearable devices for the monitoring of biological potentials is an ever-growing area of r...
This work describes a bio-potential acquisition system for portable ubiquitous healthcare applicatio...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...