Objectives: The Bachelor of Science in Engineering covers the disciplines of physics, directly related to the engineering professions. These disciplines are approached from their theoretical as well as experimental aspects.
The objective of this course is to ensure a solid training, both theoretical and experimental, in the disciplines constituting mechatronics (mechanics, automatics, electronics, industrial computing). The goal is also to master the concepts for the implementation of transversal technological solutions for the design, integrated manufacturing and control of automated and robotic systems.
Degree Level (EU) : 6 - (EQC level or equivalent)
Admission requirements: Academic:
• L1: hold a scientific baccalaureate or an equivalent diploma,
• L2 or L3: after a scientific L1 or L2, a DUT or a BTS close to the targeted specialty or a preparatory class for the grandes écoles.
Linguistics:
• L1: a B2 level at the TCF is required, possibly B1 if the academic record is exceptional,
• L2, L3: a B2 level at the TCF is required.
Acquired skills during the training : Transversal skills
• Use computer tools, office automation and the Internet;
• Communicate: write clearly, prepare communication materials, speak in public, discuss in English;
• Team working.
General scientific skills
• Mobilize knowledge from different disciplinary fields.
• Implement an experimental approach: use the most common devices and measurement techniques; identify sources of error; analyze experimental data.
• Use mathematical and statistical tools.
• Read and use a technical document.
Skills specific to the Mechatronics course
• Use of measurement techniques in the fields of electronics, electrical engineering and automation: synthesis and analysis of electrical diagrams, modeling of automatic systems, management of the power of a machine.
• Use of instrumentation techniques: choice and use of measurement sensors; signal analysis and processing
• Use current techniques in the field of mechanical engineering: CAD tools, dimensioning of parts, functional analysis, design and dimensioning of mechanisms.
• To be able to implement the essential transversal technological solutions in a context of design, integrated manufacturing and control of automated and robotic systems.
Duration and terms: 3 years
Partnerships with national organisations: Campus Aéronautique Auvergne Rhône Alpes
Dedicated web site: https://www.uca.fr/formation/nos-formations/par-ufr-ecoles-et-iut/institut-des-sciences/ecole-universitaire-de-physique-et-dingenierie/licence/licence-sciences-ingenieur