Article | REF: E2140 V3

Batteries for embedded and portable applications Fundamentals

Authors: Serge PELISSIER, Ali SARI, Pascal VENET

Publication date: March 10, 2018, Review date: April 13, 2023

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ABSTRACT

Several families of electrical batteries are present in portable, mobile, industrial and leisure equipment. Each battery technology has electrical characteristics and specific operating conditions. This article revisits the basic notions of accumulators: definitions of the principal quantities, constitution of a cell, principle of operation, techniques of frequency and time characterization, modeling of a cell, state indicators and aging modes. Finally, the portable applications and the distribution of the different technologies used are mapped.

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AUTHORS

  • Serge PELISSIER: Director of Research, Gustave EIFFEL University - Laboratoire LICIT-ECO7, Bron, France

  • Ali SARI: University Professor, University of Lyon, Claude Bernard University Lyon 1 - AMPERE Laboratory, UMR CNRS 5005, Villeurbanne, France

  • Pascal VENET: University Professor, University of Lyon, Claude Bernard University Lyon 1 - AMPERE Laboratory, UMR CNRS 5005, Villeurbanne, France

 INTRODUCTION

The development of portable, nomadic, industrial and leisure equipment is accompanied by ever-increasing needs for autonomy, requiring high-performance electric batteries. In recent years, battery technologies have undergone numerous innovations, with the emergence of new product families. While nickel-cadmium and nickel-metal hydride technologies have been mastered for many years, lithium-based batteries are more recent and evolve very regularly, leading to an increase in performance and the appearance of new chemical variants. It is therefore necessary to have a clear vision of the challenges and constraints of the various application fields, as well as of the performance of the technologies involved. Each battery family has its own specific characteristics in terms of power and energy. What's more, conditions of use differ from one technology to another. Choosing a battery technology for a given application therefore calls on a wealth of knowledge and information. This article reviews the basics of batteries (definitions, constitution, principle, characterization, modeling, ageing) and sets the context by proposing a mapping of portable and nomadic applications. A second article reviews the three main technologies used in these applications [E 2 141] .

A table of acronyms is provided at the end of the article.

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KEYWORDS

electric accumulator   |   battery   |   cell


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Electric batteries for portable and embedded applications