An ultra low power cardiac sensing channel for pacemaker applications, designed in 0.6um HV CMOS technology.Agencia Nacional de Investigación e Innovació
International audienceWearable sensors for health monitoring can enable the early detection of vario...
This paper describes an approach to design a cheap, accurate and reliable device which can easily me...
This paper presents the system-level architecture of novel ultra-low power wireless body sensor node...
PostprintThe design of a sensing channel for implantable cardiac pacemakers in CMOS on silicon-on-in...
PostprintThis paper shows the implementation of a fully integrated Gm-C 0.5-7Hz bandpass filter-ampl...
textThis project shows a design for a low power and low noise analog front end for a heart variabili...
A low-power front-end for a pacemaker atrial sensing channel based on peak detection is presented. T...
Cardiovascular disease is the number one killer disease in Malaysia. Although sudden cardiac arrest ...
Power reduction is a central priority in battery-powered medical implantable devices, particularly p...
PostprintThe design and test of a micropower signal conditioning circuit for a piezoresistive accele...
The design of a sensing channel for implantable cardiac pacemakers in CMOS on Silicon-on-Insulator (...
When the heart does not function properly, an artificial pacemaker is needed to correct the heart be...
International audienceThis paper presents the development of a wireless wearable sensor for the cont...
A low-power front end for a pacemaker atrial sensing channel based on level detection is presented. ...
Abstract This thesis describes the development of low-voltage, low-power circuit blocks and struct...
International audienceWearable sensors for health monitoring can enable the early detection of vario...
This paper describes an approach to design a cheap, accurate and reliable device which can easily me...
This paper presents the system-level architecture of novel ultra-low power wireless body sensor node...
PostprintThe design of a sensing channel for implantable cardiac pacemakers in CMOS on silicon-on-in...
PostprintThis paper shows the implementation of a fully integrated Gm-C 0.5-7Hz bandpass filter-ampl...
textThis project shows a design for a low power and low noise analog front end for a heart variabili...
A low-power front-end for a pacemaker atrial sensing channel based on peak detection is presented. T...
Cardiovascular disease is the number one killer disease in Malaysia. Although sudden cardiac arrest ...
Power reduction is a central priority in battery-powered medical implantable devices, particularly p...
PostprintThe design and test of a micropower signal conditioning circuit for a piezoresistive accele...
The design of a sensing channel for implantable cardiac pacemakers in CMOS on Silicon-on-Insulator (...
When the heart does not function properly, an artificial pacemaker is needed to correct the heart be...
International audienceThis paper presents the development of a wireless wearable sensor for the cont...
A low-power front end for a pacemaker atrial sensing channel based on level detection is presented. ...
Abstract This thesis describes the development of low-voltage, low-power circuit blocks and struct...
International audienceWearable sensors for health monitoring can enable the early detection of vario...
This paper describes an approach to design a cheap, accurate and reliable device which can easily me...
This paper presents the system-level architecture of novel ultra-low power wireless body sensor node...