Overview
ABSTRACT
The electrical architecture in vehicles has gained considerable importance over the last decades. The developments of electronics are largely responsible for the increase in electrical components, under the cover of improving the security and driving comfort of users as well as recently even respecting the environment. The dimensioning of the matter of the numerous wiring harnesses therefore has to be optimal as the feeding of the embedded systems must not be impacted. Modeling methods for the various transfer modes are a precious help to equipment suppliers. In the years to come, the generalization of hybrid or electric vehicles is to accelerate even further the electrification of vehicles.
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Read the articleAUTHORS
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Johann GRANDVUILLEMIN: R Engineer, PSA Peugeot Citroën
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Raynal GLISES: Senior Lecturer HDR, Femto-ST Laboratory (UMR CNRS 6174), University of Franche-Comté
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Christophe TIRABY: Project Manager, PSA Peugeot Citroën
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Didier CHAMAGNE: University Professor, Femto-ST Laboratory (UMR CNRS 6174), University of Franche-Comté
INTRODUCTION
Nowadays, transporting energy in general, and electrical energy in particular, often requires a physical medium. In the automotive sector, electric cables are still the only means of transporting electrical power between source and destination.
The massive and growing use of electrical conductors is essentially due to the development of on-board vehicle electronics, which has grown steadily over the last few decades, and to the multiplication of electric actuators on top-of-the-range models. This "electrification" of vehicles is inevitably accompanied by a growing number of electrical harnesses, even if this increase remains contained thanks to the advent of electrical signal multiplexing. The reasons behind this increase in the number of electrical and electronic components are linked to a number of imperatives:
improve the passive or active safety of occupants ;
make driving more comfortable;
comply with the legislation of the country of sale;
be environmentally friendly by limiting fuel consumption.
The incursion of electricity into vehicles is likely to intensify in the years to come. On the one hand, following the example of the aeronautical industry, we are likely to see an ever-increasing electrification of mechanical actuators, a trend known as "drive-by-wire". On the other hand, the widespread use of hybrid or all-electric vehicles should give even greater importance to the on-board electrical network.
This clearly demonstrates the importance of automotive electric architecture in terms of improving quality and reducing manufacturing costs.
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Electrothermal dimensioning of on-board electrical architecture
Bibliography
Standards and norms
- International standard – Road vehicles – fusible links. Part 3: Fusible links with tab (flat type). Part 4: Fusible links with female contacts (type A) and bolted contacts (type B) and their test fixtures - ISO 8820 - 2010
- Japan Automotive Standard – Selection of Fuse-links for automobile wiring, Society of Automotive Engineers of Japan (JSAE) - JASO D 610-93 - 1993
- International standard – Road vehicles...
Events
IEEE Transactions on Power Delivery
IEEE Power Electronics in Transportation
IEEE Digital Amonics Systems Conference http://ieee.org/conferences_events/index.html
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SCILAB (published by Digiteo): open-source multi-platform numerical computation software for scientific applications
MATLAB (published by Mathworks) is both a programming language and a development environment dedicated to numerical computation.
Patents
FR2931595 Method for sizing a cable and its fuse. PSA Peugeot Citroën 27/11/2009
EPI 1583193 Process for optimizing electrical wiring, particularly in the aeronautical field. Airbus France 05/10/2005
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