Journal ArticleElectrically active cells in the body produce a wide variety of voltage signals that are useful for medical diagnosis and scientific investigation. These biopotentials span a wide range of amplitudes and frequencies. We have developed a versatile front-end integrated circuit that can be used to amplify many types of bioelectrical signals. The 0.6-μm CMOS chip contains 16 fully-differential amplifiers with gains of 46 dB, 2μVrms input-referred noise, and bandwidths programmable from 10Hz to 10kHz
Journal ArticleThere is a need among scientists and clinicians for lownoise, low-power biosignal amp...
Wireless sensing of electrophysiological signals in day-to-day life, outside the well-controlled cli...
There are many different types of biopotential signals, such as action potentials (APs), local field...
Thesis (Ph.D.)--University of Washington, 2017-03This document presents various techniques and syste...
The conventional biopotential measurement configuration utilises long lead wires which connect measu...
Journal ArticleAbstract-We present the design and characterization of amplifiers and control logic ...
Electrical signals are fundamental to key biological events such as brain activity, heartbeat, or vi...
Journal ArticleWe have developed a single-chip neural recording system with wireless power delivery ...
The rapid progress of technology in the semiconductor industry over the last decades allowed the dev...
Implantable devices are ideal for recording biological signals in animal models as they have minimal...
This paper presents the design, testing and quantitative evaluation of a high-performance, low-power...
Signal degradation and an array size dictated by the number of available interconnects are the two m...
Biopotentials measurements are essential for biological research and biomedical monitoring of excita...
This paper presents the design, testing and quantitative evaluation of a high-performance, low-power...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
Journal ArticleThere is a need among scientists and clinicians for lownoise, low-power biosignal amp...
Wireless sensing of electrophysiological signals in day-to-day life, outside the well-controlled cli...
There are many different types of biopotential signals, such as action potentials (APs), local field...
Thesis (Ph.D.)--University of Washington, 2017-03This document presents various techniques and syste...
The conventional biopotential measurement configuration utilises long lead wires which connect measu...
Journal ArticleAbstract-We present the design and characterization of amplifiers and control logic ...
Electrical signals are fundamental to key biological events such as brain activity, heartbeat, or vi...
Journal ArticleWe have developed a single-chip neural recording system with wireless power delivery ...
The rapid progress of technology in the semiconductor industry over the last decades allowed the dev...
Implantable devices are ideal for recording biological signals in animal models as they have minimal...
This paper presents the design, testing and quantitative evaluation of a high-performance, low-power...
Signal degradation and an array size dictated by the number of available interconnects are the two m...
Biopotentials measurements are essential for biological research and biomedical monitoring of excita...
This paper presents the design, testing and quantitative evaluation of a high-performance, low-power...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
Journal ArticleThere is a need among scientists and clinicians for lownoise, low-power biosignal amp...
Wireless sensing of electrophysiological signals in day-to-day life, outside the well-controlled cli...
There are many different types of biopotential signals, such as action potentials (APs), local field...