Aerospace Education Catalogue

Master Electronique, énergie électrique, automatique - parcours Compatibilité Electromagnétique (CEM)

• Organisation: Ecole Universitaire de Physique et d’Ingénierie – Université Clermont Auvergne
  (Université Clermont Auvergne)
• Type of Course: Initial education - Life-long learning - Sandwich/Apprenticeship training
• Language(s): French
• Place: Clermont Ferrand (French Regions: Auvergne-Rhône-Alpes)
• Prepared diploma/grade/title: Master or DNM: French National Master Degree
• Level of entry: French Baccalaureat + 3
• VAE (Validation of Acquired Experiences): Yes
• This training is included in RNCP / RS

Course Details

Objectives: The massive use of electronic components and systems in a very large number of industrial, military, medical or consumer products and equipment has led to the increasingly frequent appearance of harmful electromagnetic interference phenomena. to their proper functioning.

To limit these problems, standards on the Electromagnetic Compatibility (EMC) of equipment have been developed, mandatory since January 1, 1996.

CEM has therefore become an essential discipline in its own right which has the particularity of being constantly evolving. Its mastery requires the understanding of all the physical phenomena of interaction in order to develop optimal solutions for the protection of complex systems vis-à-vis a disturbing electromagnetic environment.

The objective of the CEM course is to provide the student with the skills necessary to carry out a CEM project in all fields (telecommunications, automotive, aeronautics, civil and military fields, influence of electromagnetic radiation on health, etc.). More specifically, graduates must know how to manage all the technical aspects of an EMC project at the level of the study part (monitoring of standards, tests, use of software, design, implementation of protections), qualification and maintenance. industrial systems.

Intended for: Holder of a License in the relevant field.

Degree Level (EU) : 7 - (EQC level or equivalent)

Admission requirements: Holder of a License in the relevant field.

Acquired skills during the training : For the M1 common trunk:
• Be able to perform a frequency analysis of signals
• Be able to apply filters on signals
• Know the main active and passive electronic components
• Be able to design and characterize simple integrated electronic functions
• Be able to design an acquisition chain
• To be able to identify and solve the various partial differential equations encountered in EEEA
• Master simulation and design software for electronic diagrams and circuits
• Master the integrated scientific software MATLAB
• Know how to model electronic circuits in LF and HF
• Know how to analyze high frequency phenomena in transmission systems,
• Know how to define or respond to specifications for the sizing of an HF transmission system
• Be able to identify the need for EMC studies
• Know the types of electromagnetic couplings
• Be able to offer suitable EMC protection solutions
• Knowing how to analyze electrical energy transport systems and sizing the appropriate protection equipment.
• Knowing how to size power electronic systems.
For M2:
• To be able to carry out an advanced bibliographical research and to carry out a synthesis of it
• Be able to value professional or project experience during interviews
• To be able to express and promote an application in English
• Master the steps leading to the EMC certification of a product or electronic system.
• Know how to apply EMC design rules
• Master the identification of EMC couplings in an electronic system.
• Master the main numerical methods in CEM
• Be able to perform EMC simulations using commercial computer codes (CST, FEKO).
• Development of an EMC measurement chain.
• Implementation of EMC tests in immunity and emission, conducted and radiated.

Targeted careers : Design and drawing of electrical and electronic products (ROME H1202)
• Draftsman / designer of studies in electricity-electronics
• Draftsman / designer of electrical-electronic equipment
• Draftsman / designer in electricity-electronics
Management and engineering studies, industrial research and development (ROME: H1206)
• Electronics engineer / Electronics engineer in industry
• Engineer / Engineer in industry
• Engineer in technological innovations
Technical intervention in studies and electronic development (ROME H1209)
• Electronic system developer designer
Technical intervention in quality control test in electricity and electronics (ROME H1504)
• Electricity platform test driver
• Electronic material controller - Electronic quality controller
Electronic installation and maintenance (ROME I1305)
• Telecommunications systems maintenance electronics technician
• Aircraft maintenance electronics technician

Duration and terms: 2 years
The second semester of M1 includes an internship of 3 to 5 months or a compulsory end-of-studies project. The second semester of M2 includes a compulsory internship of 4 to 6 months.

Dedicated web site: https://www.uca.fr/formation/nos-formations/par-ufr-ecoles-et-iut/institut-des-sciences/ecole-universitaire-de-physique-et-dingenierie/master/master-electronique-energie-electrique-automatique

Disciplines

• Engineering Sciences

Topics

• 1 - Physics and Environment: radiation, particles, fields, debris, climatic and vibratory conditions, meteorology
• 9 - Electronics, Microelectronics, Microwaves, Propagation, Antennas, Radar, Optics, Optronics
• 10 - Control Systems, Robotics, Guidance and Control, Autonomous Systems