Partnership engineering training (FIP) can be undertaken with an apprenticeship contract (students aged under 30) or on the continuing education track (age over 30). Engineers are awarded the INSA Strasbourg diploma, specialization mechatronics-DeutschINSA in partnership with ITTI Alsace (Institute of industrial engineering techniques Alsace). The CFAI Alsace (industrial apprentices’ training center) is responsible for running and administering the course.
To train hands-on engineers who are versatile and directly operational in the fields of mechanics, data processing and electronics in a Franco-German context.
Mechatronics is a combination of mechanical and electrical engineering, automatic controls and data processing. This multidisciplinary approach makes it possible to design and implement complex systems (transport, robotics, production, etc.). Mechatronics now feature in all technical products and at all stages of their life cycle.
The mechatronics sandwich course is recognized under the student status created in 1991.
Training that looks towards the factory of the future
Mechatronics engineers trained on a sandwich course are well prepared for the factory of the future and are therefore able to work in both design and production:
- in designing connected machinery and products
- parametric design based on PLM (Product Life Management) logic
- rapid prototyping/additive manufacturing
- sensor integration and signal processing
- design and modeling of control systems
- in production, they are capable of intervening at workstation level to integrate a process on a piece of connected equipment:
- management of product diversity on the production line
- workstation monitoring
- integration of robots/cobots into a production line
- management of HMIs
- integration of field bus or IP network issues
Within the company, they are capable of collaborating with colleagues in different skills areas to integrate constraints such as energy efficiency and computer network security.
This course takes place in a Franco-German context:
- Franco-German environment in the company (customers, suppliers, documentation, etc. while the company may be in France of Germany)
- some technical teaching at INSA in German and a semester of training in German at the end of Year 2 (technical German lessons are given at INSA for three semesters to prepare for this semester in Germany).
The course runs over 3 years and includes academic training, mainly provided by INSA Strasbourg, and on-the-job training.
During the three-year course, each student is supervised by two tutors: a company tutor and an academic tutor. Their task is to support the student in his or her studies in a number of ways:
- completing tracking sheets, assessed at the end of each in-company period,
- dual tutoring on the key projects in the course
- participating in different class panels,
In Year 1, students alternate between school and company every two weeks (2 weeks at INSA, 2 weeks in the company).
The host company’s job is to support the student in his or her development, to move on from a technician’s role to an engineer’s role.
Training objectives are set for each year of the course: awareness of companies and their environment and participation in the performance of technical assignments in Year 1, implementation of projects on a larger and larger scale in Year 2, practical application of knowledge acquired through the autonomous conducting of a “complex” project in Year 3.
Skills of the mechatronics engineer
Mechatronics involves seeing the product as a whole and the mechatronics engineer needs to have a good general grounding in engineering sciences, which can be developed further as required.
General skills of an INSA Strasbourg-trained mechatronics engineer:
- mechanical design of systems (product development methodology, computer-assisted design, dimensioning)
- selecting and integrating actuators, pre-actuators and sensors
- carrying out simple programming in embedded systems
- designing and producing simple PCBs
- setting up production on a numerically controlled machine tool, using computer-assisted manufacturing techniques
- setting up a test bed
- designing an automated industrial system taking account of the different parts (mechanical, electrical, automatic, etc.) and putting it into operation (“Industry 4.0” component)
Design offices: product or process design or improvement manager
Research & development: engineer in charge of innovation projects
Engineering consultancy: organization studies, technical projects
Other technical and business functions
Head of department: Marc Vedrines
Training assistant: Françoise Bischoff