The most common method used to pick up biomedical signals is through metallic electrodes coupled to the input of high-gain, low-noise amplifiers. Unfortunately, electrodes, amongst other effects, introduce an undesired contact resistance and a contact potential. The contact potential needs to be rejected since it would otherwise cause the saturation of the input stage of the amplifiers, and this is almost always obtained by inserting a simple RC high-pass filter in the input signal path. The contact resistance needs to be estimated to ensure that it does not impair correct measurements. Methods exist for estimating the contact resistance by dynamically modifying the input network configuration, but because of the presence of the input RC fi...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
The development of wearable biomedical equipment benefits from low-power and low-voltage circuit te...
Piezoresistive sensors convert a physical value into a resistance variation. Often four resistive el...
This research develops a non-contact bio-potential sensor which can quickly respond to input transie...
AC coupling is essential in biopotential measurements. Electrode offset potentials can be several or...
In this paper, we propose a simple and relative electrode contact monitoring method. By exploiting t...
Abstract—AC coupling is essential in biopotential mea-surements. Electrode offset potentials can be ...
INTRODUCTION: Electromagnetic interference caused by electric power lines adversely affects the sign...
This paper addresses the design of the low-frequency response of a multi-stage bioelectric amplifier...
This paper presents a novel two-wired active electrode that achieves ultrahigh input impedance using...
An important drawback of current biopotential monitoring systems is their dependence on gel electrod...
Noncontact capacitive electrodes are a suitable choice for unobtrusive and long-term ECG/heart-rate ...
The trade-off between speed and sensitivity of detection is a fundamental challenge in the design of...
The paper presents a very high sensitivity transimpedance amplifier in standard CMOS 0.35um technolo...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
The development of wearable biomedical equipment benefits from low-power and low-voltage circuit te...
Piezoresistive sensors convert a physical value into a resistance variation. Often four resistive el...
This research develops a non-contact bio-potential sensor which can quickly respond to input transie...
AC coupling is essential in biopotential measurements. Electrode offset potentials can be several or...
In this paper, we propose a simple and relative electrode contact monitoring method. By exploiting t...
Abstract—AC coupling is essential in biopotential mea-surements. Electrode offset potentials can be ...
INTRODUCTION: Electromagnetic interference caused by electric power lines adversely affects the sign...
This paper addresses the design of the low-frequency response of a multi-stage bioelectric amplifier...
This paper presents a novel two-wired active electrode that achieves ultrahigh input impedance using...
An important drawback of current biopotential monitoring systems is their dependence on gel electrod...
Noncontact capacitive electrodes are a suitable choice for unobtrusive and long-term ECG/heart-rate ...
The trade-off between speed and sensitivity of detection is a fundamental challenge in the design of...
The paper presents a very high sensitivity transimpedance amplifier in standard CMOS 0.35um technolo...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
The development of wearable biomedical equipment benefits from low-power and low-voltage circuit te...
Piezoresistive sensors convert a physical value into a resistance variation. Often four resistive el...