This paper presents an 8-channel electrocardiogram (ECG) monitoring integrated circuit (IC) controlled by time-division multiplexing (TDM). The proposed TDM compensates the electrode DC offsets by forming an individual discrete-time feedback loop per channel while sharing an analog frontend. This enables a chopping-free open-loop amplification, achieving a high input impedance suitable for a noncontact ECG monitoring. In addition, a common-mode interference (CMI) cancellation scheme is also introduced in the proposed TDM schedule for the realization of a pseudo-driven-right leg (DRL) in a multichannel environment. The designed system is implemented in 180 nm CMOS. The chip dissipates 18.6 μW/channel including the power consumption by ADC. I...
This paper presents a power efficient analog front-end (AFE) for electrocardiogram (ECG) signal moni...
This paper presents an active electrode system for gel-free biopotential EEG signal acquisition. The...
In this study, we developed a conceptual design for a high resolution multichannel ECG data acquisit...
Cardiovascular diseases are leading cause of deaths worldwide. With increasing graying population an...
A low-noise and -power readout integrated circuit (IC) for two-electrode electrocardiogram (ECG) rec...
Electrocardiogram (ECG) is one of the major physiological vital signs and an effective monitoring me...
This paper presents a three-channel low-power and compact analog processor including a test chip, fa...
This paper describes an analog/digital CMOS ASIC with the complete data acquisition for use in elect...
This paper presents an ultra-low-power current-mode ECG instrumentation amplifier, which is designed...
In medical instrumentation the demand for small battery wearable measurement and control equipment i...
This paper proposes a cardiac electrogram acquisition and stimulation integrated circuit (IC) for si...
This paper describes the design and impementation of an integrated frontend for electrocardiographic...
Rapid progress and emerging trends in miniaturized medical devices have enabled the un-obtrusive mon...
Simultaneous measurement of Electrocardiogram (ECG) and bio-impedance (BioZ) via disposable health ...
This paper describes a mixed-signal ECG system for personalized and remote cardiac health monitoring...
This paper presents a power efficient analog front-end (AFE) for electrocardiogram (ECG) signal moni...
This paper presents an active electrode system for gel-free biopotential EEG signal acquisition. The...
In this study, we developed a conceptual design for a high resolution multichannel ECG data acquisit...
Cardiovascular diseases are leading cause of deaths worldwide. With increasing graying population an...
A low-noise and -power readout integrated circuit (IC) for two-electrode electrocardiogram (ECG) rec...
Electrocardiogram (ECG) is one of the major physiological vital signs and an effective monitoring me...
This paper presents a three-channel low-power and compact analog processor including a test chip, fa...
This paper describes an analog/digital CMOS ASIC with the complete data acquisition for use in elect...
This paper presents an ultra-low-power current-mode ECG instrumentation amplifier, which is designed...
In medical instrumentation the demand for small battery wearable measurement and control equipment i...
This paper proposes a cardiac electrogram acquisition and stimulation integrated circuit (IC) for si...
This paper describes the design and impementation of an integrated frontend for electrocardiographic...
Rapid progress and emerging trends in miniaturized medical devices have enabled the un-obtrusive mon...
Simultaneous measurement of Electrocardiogram (ECG) and bio-impedance (BioZ) via disposable health ...
This paper describes a mixed-signal ECG system for personalized and remote cardiac health monitoring...
This paper presents a power efficient analog front-end (AFE) for electrocardiogram (ECG) signal moni...
This paper presents an active electrode system for gel-free biopotential EEG signal acquisition. The...
In this study, we developed a conceptual design for a high resolution multichannel ECG data acquisit...