Advanced Application of Battery Management Systems in Medical Diagnostics

Michal Prauzek; Jakub Jirka; Martin Stankus

doi:10.4028/www.scientific.net/AMM.330.834

Paper Titles

Effect of Combustion Chamber Geometry on In-Cylinder Flows and Equivalence Ratio Spread in a Direct Injection Engine - A CFD Analysis
p.815

Numerical Determination of Sheet Metal Forming Limit Based on a New Combined Model of M-K Theory and Shear Localization Criterion
p.821

Mould Structure Optimization of the Biomass Molding Machine
p.826

Compatibility Check of the Prior Information on Low Voltage Switchgear
p.830

Advanced Application of Battery Management Systems in Medical Diagnostics
p.834

Collapsibility Studies of MJM Acrylate Patterns for Investment Casting
p.839

A Simulated Annealing to Solve Four-Stage Open Shops with Parallel Machines
p.843

A Cost Effective and Efficient Storm Water Gutter and a Novel Honeycomb Wall Using Pre-Cast Elements
p.851

Risk Assessment of Ergonomic Risk Factors at Construction Sites
p.857

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 330Advanced Application of Battery Management Systems...

Advanced Application of Battery Management Systems in Medical Diagnostics

Abstract:

This paper describes design, methods and practical realization of advanced power supply with battery management in a portable medical device for diagnostic of the patient. The device can measure biosignal from the patient and it can save data in removable storage. Methods for selection of DC / DC converters and methods for increase in patient safety are described as well. The paper also proposes a complex application of battery management circuit and methods for reduction of electromagnetic interference. The device was tested in several charging cycles and the standard operation time was approached.

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Periodical:

Applied Mechanics and Materials (Volume 330)

Pages:

834-838

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.330.834

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Online since:

June 2013

Authors:

Michal Prauzek, Jakub Jirka, Martin Stankus

Keywords:

Battery Management, Dc-Dc Converter, Li-Ion Cell, Medical Device

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