ECAM Engineering Program
Combined Bachelor's / Master's Degree
TEACHING UNIT ECTS TEACHING UNIT COMPONENT Content TEACHING HOURS
Electrical Engineering 3 5 Electronics 3

Association of standard electronic components: sinusoidal oscillators, astable multi-vabrators, ADC and DAC converters, sample and hold circuits, instrumentation amplifiers, linear and switch-mode power supplies, inverters and thyristors. Reading and analysis of graphics and circuits

Lectures : 12h00
Tutorials : 10h00
Lab Work : 8h00
Fundamental Sciences 2 4 Mathematics 5

Introduction to statistics and probability
One variable descriptive statistics
Two variables descriptive statistics
Parametric models
Parameter estimations

Lectures : 12h00
Tutorials : 8h00
Humanities 5 4 Personal Project 2

Roles and responsibilities, risk management

Tutorials : 4h00
Languages 5 FL1

• Exercises to develop effective oral communication throughout the programme
• Work on grammatical structures in situation via pairwork, mini-meetings and roleplays
• Confidence-building exercises - presenting groupwork/pairwork
• Use of video debates / conferences as a basis for discussion
• Listening exercises
? - to improve general ability
? - to promote and stimulate debate

Tutorials : 24h00
Languages 5 FL2

Tutorials : 18h00
Mechanical Engineering 3 5 Materials 2

Phase diagrams, phase transformations in metals, relationship between structure and mechanical properties, thermal processing of metal alloys

Lectures : 10h00
Tutorials : 8h00
Lab Work : 12h00
Solid and Structures 2

Approximation principle, post-treatment of results, lab work on the ANSYS software: choice of modeling system (element type, use of symmetries, mesh factor), type of analysis (linear or non-linear), analysis of results and dimensioning criteria (yield criterion, failure criterion)

Lectures : 10h00
Tutorials : 8h00
Lab Work : 12h00
Robotics - SPECIALIZATION 1 8 Robotics 1

Lectures : 10h00
Tutorials : 8h00
Control 1

modelling of typical elements of a servo mechanism, block diagram representation of systems, open and close loop simplification, transfer function analysis of transient and steady state response, S-plane and frequency response analysis, gain and phase margins, how to improve the response of a system (Integrator, PID...)

Lectures : 10h00
Tutorials : 8h00
Lab Work : 12h00
Information Systems & Technology

OSI model, TCP/IP, network design and documentation, ethernet routing and switching, CLI and configuration, network Troubleshooting LAN switched networks and campus architectures including VLAN's, network Management and Access Control Lists, Wireless networks based on 802.11

Lectures : 12h00
Lab Work : 12h00
Systemic Design - SPECIALIZATION 1 8 Advanced design

During the teaching experience, the student will acquire cultural and technical-methodological skills as well as a wider awareness of his role and the professional, ethical, social responsibilities of the profession.


ABILITY
This course will allow the student to mature his ability in defining the development perspectives of the product system. Students will be able to
• define new production fields, new types of product and service;
• give shape to the relative supply chains of value and matter, in an aware and responsible way.
• critical abilities, analysis and interpretation of the context:
• orient design choices with sustainability performances
• understand and manage sensorial relationships between the mind and artefacts.

Processes 4

Transformation processes, machining dispersions study and analysis, validation of the preliminary draft manufacturing study, introduction to non-conventional manufacturing processes, functional analysis of mechanisms, selection of materials

Lectures : 10h00
Tutorials : 6h00
Product Design

Realisation / assembly drawing including mech. Linkage & power transmission solutions
Complete plan for the design or re-design of the product from ideation to the pre-engineering phase

Lectures : 8h00
Tutorials : 6h00
Lab Work : 18h00
Transversal Project 5 4 Entrepreneurship Project 2

After completion of the full module (3 semesters) students will have developped Advanced knowledge on:
- how to assess business opportunities and what characterize successes and failures
- key processes necessary to bring new products and services to market
- an understanding of scientific research methods and theories relevant for the field

Students will also aquire the following skills:
- ability to carry out scientific research in the field of entrepreneurship
- ability to plan, organize, and execute a project or new venture with the goal of bringing new products and service to the market
- ability to write scientific reports and communicate the results in a professional manner

Tutorials : 15h00
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