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Electrical Systems – Power Electronics Networks & Motorisation

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ELECTRICAL SYSTEMS PRESENTATION

 

           

 

CONTEXT

Electrical energy is at the heart of energy evolution and society’s expectations. The major challenges of the 21st century in terms of climate change are directly impacting three fundamental sectors:

Transport: overall electrification for all means of transport (automobile, rail traction, increased use of electricity in airplanes)

Housing: improvements in electricity supply thanks to smart grids; energy savings

Energy production and distribution: Assimilate renewable energy into the networks; network management and stability

As an electrical engineer you will lead projects to optimse the energy supply in electrical installations and in turn increase output of electrical transformers (energy sources, electrical actuators, power electronics, etc.)

3-year programme

ENGINEERING SCIENCESELECTRICAL SYSTEMSPOWER ELECTRONICS, NETWXORKS AND ENGINESBUSINESS AND COMMUNICATIONPROJECTS
  • Mathematical tools 
  • Fourier Analysis. Geometrical analysis 
  • Applied Physics for materials & energy 
  • Measurement Technics 
  • Algorithms; C Language 
  • Matrix and Vector Analysis 
  • Heat Transfer 
  • Material and Components for Electrics & Electronics 
  • Thermal Energy; Cooling Systems 
  • Mechanics; Electro-magnetic
  • Distribution 
  • Safety and Installation; Power Electronics 
  • Linear Control; Automatic Sequential Systems 
  • Machines and Converters 
  • Electrical and Electronic Systems Modeling 
  • Land Networks; Supervision 
  • Renewable Energy
  • Electromagnetic Actuators 
  • FPGA Programing 
  • Control and Interface electronics 
  • State Modeling 
  • Vector and Embedded Control 
  • Transport Networks & Associated Converters 
  • Electrical/Electronic Systems 
  • Power Electronics Projects
  • Management 
  • International Projects 
  • Eco-design 
  • English; International Opportunities
Option 1: Engines • Option 2: Connectivity and Power Networks;

 

professional skills

UNDERSTAND SPECIFICATIONS

  • Being familiar with customer’s internal & external environment (constraints, products, culture, vocabulary, magnitude of orders) 
  • Formulating customer needs within the company’s framework 
  • Apply Safety Regulations & Standards 
  • Anticipating and preparing proposals relevant to customer needs

PUT FORWARD TECHNICAL SOLUTIONS

  • Applying the formal requirements of design 
  • Respecting regulatory standards 
  • Evaluating financial and technical feasibility 
  • Explaining & defending the chosen solution

UNDERSTANDING COMPLEX ISSUES

  • Functional system analysis 
  • Ranking & classifying information and elements 
  • Using systemic analysis tools effectively 
  • Consulting external specialists

IN DEPTH KNOWLEDGE OF ELECTRICAL SYSTEMS TECHNOLOGY

  • Model, simulate & test (trials) 
  • Apply safety measures (housing, etc.) 
  • Implementing measuring devices and evaluating priorities 
  • Keep up to date with latest technology

IMPLEMENTING TECHNICAL SOLUTIONS

  • Maintaining written work reports 
  • Validating product conformity 
  • Demonstrating a practical and pragmatic approach

fields & careers

fields

Automobile. Railways. Aerospace. Housing. Renewable Energy. Power Electronics. Electric Engines, Transport and Distribution Networks.

careers

  • Design & Consultant Engineer Research & Development Engineer 
  • Test Engineer 
  • Electrical Systems Engineer 
  • Electrical Systems Project Manager

qualification

The course leads to the qualification of graduate engineer awarded by CNAM (Conservatoire Nationale des Arts et Métiers) in partnership with Ingenieurs 2000 – Specialisation: Electrical systems  

place of study

Le CNAM (EI.Cnam)
61 rue du Landy
93210 La Plaine Saint Denis