Master Electronique, énergie électrique, automatique
Parcours Multiscale and multiphysics modeling for electrical engineering (3MEE)
Présentation et objectifs
Over the last 25 years, the global population using electricity has increased by 10 points, from 74 to 85%, while the per capita power consumption increased by 50%. This increasing demand for energy and the necessary fulfillment of environmental constraints are driving the development of renewable energies and renewed electrical systems and devices.
On one hand, the integration and use of intermittent energies require profound technological changes of power grids to ensure an optimized, secure and reliable production and distribution in any conditions.
On the other hand, electromagnetic devices are also subject to multiple constraints. Development of electric transportation systems (car, plane ...) impose the use of high-performant and energy-efficient on-board devices. These devices will be submitted to intense multi-physical solicitations (electromagnetic, mechanical and thermal). The rising of the Internet of Things (IoT), key element for the deployment of smartgrids, smarthomes and smartcities, requires energy recovery devices using several physical, storage elements as well as specific sensors and actuators.
In a scientific and industrial context engaged in the search for innovative solutions, it is vital for the modern electrical engineer to model and describe more finely the response of devices and systems, on several scales (from the geographical territory to the microscopic material scale). The 3MEE program is therefore conceived as the convergence between three training areas: electromagnetic modeling and circuit theory, numerical computations, multi-scale and multi-physics studies of a wide range of systems and devices from transmission power grids to electrical actuators. The extensive training provides a multidisciplinary culture that allows students to acquire high-level scientific knowledge and skills for research and development (R & D) in electrical engineering, from the latest theories to their applications.
Présentation
Présentation
Dimension internationale :
Formation tournée vers l’internationalPartenariats:
Etablissement(s) co-accrédité(s)
- Institut Polytechnique de Grenoble
Laboratoire(s) partenaire(s)
Autres(s) structure(s) partenaire(s)
Programme
Programme
Construction program - waiting to vote CFVU
- Semestre 7
- UE Représentation d'Etat 3 crédits ECTS
- UE Gestion de projet entrepreunarial 3 crédits ECTS
- UE Automates et systèmes embarqués 6 crédits ECTS
- UE Réseaux de puissance 3 crédits ECTS
- UE Machines électriques 3 crédits ECTS
- UE Synthèse de convertisseurs 3 crédits ECTS
- UE Structures de convertisseurs 3 crédits ECTS
- UE Composants passifs 3 crédits ECTS
- UE Projet SEE part 1 3 crédits ECTS
- Semestre 8
- UE SISO Feedback control 3 crédits ECTS
- UE Compatibilité électromagnétique 3 crédits ECTS
- UE Variation de vitesse 3 crédits ECTS
- UE Modélisation des systèmes de puissance 3 crédits ECTS
- UE Electronique de puissance avancée 3 crédits ECTS
- UE Projet SEE part 2 3 crédits ECTS
- UE Projet SEE part 3 3 crédits ECTS
- UE Anglais 3 crédits ECTS
- UET
1 option(s) au choix parmi 2
- Semestre 9
- UE Dynamic modeling and analysis of electrical systems 6 crédits ECTS
- UE Optimal Design and Circuit Analysis 3 crédits ECTS
- UE Theory and Computation of Electromagnetic Fields 6 crédits ECTS
- UE Advanced techniques for computational electromagnetics 6 crédits ECTS
- UE Advanced topological methods for power systems 6 crédits ECTS
- UE Research project 3 crédits ECTS
- Semestre 10
- UE Humanities and engineering 3 crédits ECTS
- UE Internship 24 crédits ECTS
- UE Anglais 3 crédits ECTS
- UE FLE 3 crédits ECTS
1 option(s) au choix parmi 2
Master Systèmes d'énergie électrique 1re année
Master 2e année
Stages, projets et missions
Stage: ObligatoireDurée : 4 to 5 monts
Stage à l'étranger : En France ou à l'étranger
One supervised project (first semester) and an internship in an academic laboratory or industrial R&D lab (second semester)
Contrôle des connaissances
The grading policy comprises homeworks and lab assessments plus partial and final examinations. The grade of a module is the weighted average of the marks of each assessment, and the overall mark of the Master’s exam is the mean of module grades weighted by the credits of the modules.
Admission
Admission
Condition d'accès
- 1st year of master’s degree :The prospective student should have completed at least three full years of University studies (180 ECTS)
- 2nd year of master’s degree : The prospective student should have completed at least four full years of University studies (a first year of master's degree, bachelor or equivalent degree with 240 ECTS), have followed basic classes in Electrical engineering, prove an English proficiency with CEFR (B2), TOEFL (IBT 87-109), IELTS (5.5-6.5), TOEIC (785-945) or equivalent. Students coming from English-speaking countries or/and who had a University curriculum in English are considered proficient enough. If you don't have the opportunity to take the test in your home University, an English test is organized during the first week of the classes, to check the level of everyone.
For applicants whose country of residence does not fall under the "Study Portal in France" (PEF), the schedule of the application campaigns for the eCandidat application is available here
Public continuing education : You are in charge of continuing education :
- if you resume your studies after 2 years of interruption of studies
- or if you followed training under the continuous training regime one of the previous 2 years
- or if you are an employee, job seeker, self-employed
If you do not have the diploma required to integrate the training, you can undertake a validation of personal and professional achievements (VAPP
Candidature
Would you like to apply and register ? Be aware that the procedure differs depending on the diploma, the degree obtained, or the place of residence for foreign students. Let yourself be guided by following this link
Pré-requis
Basic knowledges in electrical engineering and electromagnetism
Public cible
The master 3MEE is for students wishing to acquire advanced skills in modeling for the study and analysis, design and development in electrical engineering, from the devices to power systems. It prepares students for either PhD studies or various professions in industry and public organizations.
Droits de scolarité
Droits de scolarité 2020-2021 : 243 €
Et après ?
Et après ?
Poursuite d'études
The natural follow-up to the master 3MEE is the Ph.D. degree, which in turn leads to academic teaching-research or full-time research positions (in universities, research bodies, etc.) or to industrial Research and Development in the aforementioned fields.
Candidature
Would you like to apply and register ? Be aware that the procedure differs depending on the diploma, the degree obtained, or the place of residence for foreign students. Let yourself be guided by following this link
Contacts
Responsable pédagogique
Nicolas Galopin
Secrétariat de scolarité
Gestionnaire
Demande de candidature
Responsable formation continue
Contact FC STS
En bref
Discipline : Environnement, Matériaux, Physique, Terre, Informatique, Mathématiques, Sciences et technologies de l'information et de la communication, IngénierieModalités : Formation initiale / continue
Langues : Anglais
Lieux : Grenoble - Polygone scientifique
Durée des études : 2 ans
Niveau de recrutement : Bac +3