This paper shows the implementation of a fully integrated Gm-C 0.5-7Hz bandpass filter-amplifier with gain G=400, for a piezoelectric accelerometer which is part of a rate adaptive pacemaker. The fabricated circuit operates up to 2V power supply, consumes only 230nA current, and achives 2.1µVrms input noise. Detailed circuit specifications, measurements, and a comparative analysis of the system performance are presented
Abstract: In this paper, the least-mean-squares (LMS) algorithm was used to eliminate noise corrupti...
peer reviewedTogether with a charge or voltage amplifier, piezoelectric sensors are commonly used to...
This paper proposes a cardiac electrogram acquisition and stimulation integrated circuit (IC) for si...
ABSTRACT This paper shows the implementation of a fully integrated G m -C 0.5-7Hz bandpass filter-am...
PostprintThis paper shows the implementation of a fully integrated Gm-C 0.5-7Hz bandpass filter-ampl...
In this paper, the design methodology of a fully integrated gm-C, 0.5-7Hz band-pass amplifier is pre...
In this paper, the design methodology of a fully integrated gm-C, 0.5-7Hz band-pass amplifier is pre...
PostprintThe design and test of a micropower signal conditioning circuit for a piezoresistive accele...
When the heart does not function properly, an artificial pacemaker is needed to correct the heart be...
This paper presents a comparative study of activity sensors: piezoelectric and accelerometer sensor,...
Project (M.S., Electrical and Electronic Engineering) -- California State University, Sacramento, 20...
Piezoresistive sensors convert a physical value into a resistance variation. Often four resistive el...
Abstract — A low-power fully integrated bioamplifier is presented that can amplify signals in the ra...
This paper presents a 1.2V low-power low-noise analog front end circuit for electrocardiogram (ECG) ...
The advancement in sensing materials has led to the growth of the sensing technologies in flexible a...
Abstract: In this paper, the least-mean-squares (LMS) algorithm was used to eliminate noise corrupti...
peer reviewedTogether with a charge or voltage amplifier, piezoelectric sensors are commonly used to...
This paper proposes a cardiac electrogram acquisition and stimulation integrated circuit (IC) for si...
ABSTRACT This paper shows the implementation of a fully integrated G m -C 0.5-7Hz bandpass filter-am...
PostprintThis paper shows the implementation of a fully integrated Gm-C 0.5-7Hz bandpass filter-ampl...
In this paper, the design methodology of a fully integrated gm-C, 0.5-7Hz band-pass amplifier is pre...
In this paper, the design methodology of a fully integrated gm-C, 0.5-7Hz band-pass amplifier is pre...
PostprintThe design and test of a micropower signal conditioning circuit for a piezoresistive accele...
When the heart does not function properly, an artificial pacemaker is needed to correct the heart be...
This paper presents a comparative study of activity sensors: piezoelectric and accelerometer sensor,...
Project (M.S., Electrical and Electronic Engineering) -- California State University, Sacramento, 20...
Piezoresistive sensors convert a physical value into a resistance variation. Often four resistive el...
Abstract — A low-power fully integrated bioamplifier is presented that can amplify signals in the ra...
This paper presents a 1.2V low-power low-noise analog front end circuit for electrocardiogram (ECG) ...
The advancement in sensing materials has led to the growth of the sensing technologies in flexible a...
Abstract: In this paper, the least-mean-squares (LMS) algorithm was used to eliminate noise corrupti...
peer reviewedTogether with a charge or voltage amplifier, piezoelectric sensors are commonly used to...
This paper proposes a cardiac electrogram acquisition and stimulation integrated circuit (IC) for si...