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This work is concerned with the development of a wireless low-power wearable system to be used for multi-lead ECG monitoring. Potential applications can range from sport and ñtness to healthcare. The paper aims to present the architecture of the system and its performance, along with in-vivo results achieved with carbon based smart textiles.
This work is concerned with the development of a wireless low-power wearable system to be used for multi-lead ECG monitoring. Potential applications can range from sport and fitness to healthcare. The paper aims to present the architecture of the system and its performance, along with in-vivo results achieved with carbon based smart textiles.
We report on further developments of our recently proposed design approach for a full in-pixel signal processing chain of deep n-well (DNW) MAPS sensors, by exploiting the triple well option of a CMOS 0.13 μm process. The optimization of the collecting electrode geometry and the re-design of the analog circuit to decrease power consumption have been implemented in two versions of the APSEL chip series,...
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