Noncontact capacitive electrodes are a suitable choice for unobtrusive and long-term ECG/heart-rate monitoring applications but require a front-end amplifier with large input impedance, low noise, and motion artifact (MA) reduction methods. This article proposes a front-end amplifier structure with a fast reset scheme. It enables MA recovery prior to saturation and, therefore, avoids a long recovery process, which may take up to several seconds and results in signal loss in typical capacitive sensing systems. A reconstruction algorithm restores the waveform and, thus, extends the dynamic range beyond the original saturation level. The proposed fast-reset amplifier and a conventional pseudo-resistor biased amplifier were fabricated in a 180-...
Many healthcare and lifestyle applications could benefit from capacitive measurement systems for uno...
Capacitive Electrodes (CE) allow the acquisition of biopotentials through a dielectric layer, withou...
Capacitive electrodes can be employed for noninvasive electrocardiography (ECG) measurements; they a...
Noncontact capacitive electrodes are a suitable choice for unobtrusive and long-term ECG/heart-rate ...
Non-contact capacitive electrodes are very suitable for wearable devices to acquire electrophysiolog...
Objective: Sensing with capacitive electrodes is of interest for long-term, comfortable bio-potentia...
Electrocardiogram (ECG) is one of the major physiological vital signs and an effective monitoring me...
This paper addresses the design of the low-frequency response of a multi-stage bioelectric amplifier...
Electrocardiography (ECG) measurements are essential components in clinical diagnosis and monitoring...
THESIS 9178This thesis presents an analytical approach to some key issues related to the design of b...
With the fast-growing pace of the aging population, there is increasing need to monitor the elderly ...
Many healthcare and lifestyle applications could benefit from capacitive measurement systems for uno...
Capacitive Electrodes (CE) allow the acquisition of biopotentials through a dielectric layer, withou...
Capacitive electrodes can be employed for noninvasive electrocardiography (ECG) measurements; they a...
Noncontact capacitive electrodes are a suitable choice for unobtrusive and long-term ECG/heart-rate ...
Non-contact capacitive electrodes are very suitable for wearable devices to acquire electrophysiolog...
Objective: Sensing with capacitive electrodes is of interest for long-term, comfortable bio-potentia...
Electrocardiogram (ECG) is one of the major physiological vital signs and an effective monitoring me...
This paper addresses the design of the low-frequency response of a multi-stage bioelectric amplifier...
Electrocardiography (ECG) measurements are essential components in clinical diagnosis and monitoring...
THESIS 9178This thesis presents an analytical approach to some key issues related to the design of b...
With the fast-growing pace of the aging population, there is increasing need to monitor the elderly ...
Many healthcare and lifestyle applications could benefit from capacitive measurement systems for uno...
Capacitive Electrodes (CE) allow the acquisition of biopotentials through a dielectric layer, withou...
Capacitive electrodes can be employed for noninvasive electrocardiography (ECG) measurements; they a...