Goals

Introduce students to the basic concepts implemented in electrotechnical systems. Particular emphasis is placed on the energy aspect. Methods and tools for analysis and design of electrical systems allow the understanding of the functioning of electrical equipment used in the production, transportation and utilization of electrical energy. For each topic, the course begins with an overview of industrial applications of everyday life in which the production, transportation, processing or use of electrical energy comes. Technological aspects and the orders of magnitude are discussed. The set aim, in teaching terms, is the acquisition of a global comprehension of the energy conversion systems that an engineer will meet in his professional and personal life.

Programme

  • Kirchhoff network.
  • Three phase systems.
  • Low frequency electromagnetism.
  • Induction - application to transformer.
  • Static conversion of electrical energy.

Sustainable development

Sustainable Development Goals

Level 1: Activity contextualised through environmentally sustainable development and social responsibility and/or supported by examples, exercises, applications.

DD&RS level 1

Activity contextualised through environmentally sustainable development and social responsibility and/or supported by examples, exercises, applications.

Programme elements related to sustainable development goals

The first session of the course is devoted to notions of global energy in order to situate the role of energy within contemporary societies and more particularly the electrical energy vector. The link between the development of human societies and the use of the electrical energy vector makes it possible to show students the interest in knowing the systems and mastering the physical laws of this rapidly expanding field which greatly contributes to the decarbonization of our humain societies.

Study
2h
 
Course
12h
 
TC
14h
 
PW
4h
 

Responsibles

  • Arnaud BREARD
  • Christian VOLLAIRE

Language

French

Keywords

Maxwell's equations and the various simplifications, Conduction currents, displacement currents, propagation ; Behaviour of variables at the interfaces ; EM properties of the materials ; Ampere theorem, flow conservation ; Some models of complex structures ; Power electronic.