Under Graduate Courses
Εισαγωγή στην Επιστήμη της Ηλεκτρονικής, των Υπολογιστών και των Επικοινωνιών - 1o Εξάμηνο
Διδάσκοντες: Μαραβελάκης Μ., Μπολανάκης Ν.
Σκοπός του μαθήματος είναι, μετά την ολοκλήρωση τη μαθησιακής διαδικασίας οι φοιτητές και φοιτήτριες να έχουν κατανοήσει με πληρότητα τις βασικές έννοιες των κύριων ενοτήτων της επιστήμης της ηλεκτρονικής, των υπολογιστών και των επικοινωνιών και να έχουν αποκτήσει δεξιότητες εκπόνησης ομαδικής εργασίας
The aim of the course is to acquire the theoretical and practical background in Automatic Control Systems (SAE) in analog but also in digital time as well as in their applications. The course aims to introduce students to the basic concepts of Automatic Control Systems.
The course is a completion course for the Electronic Engineer. It combines basic knowledge of Physics, Engineering, Electrical Circuits, Basic Electronics and Electronic Power, Signals and Systems, Automatic Control and Robotics, for the design of complete mechanical, electrical and electronic devices controlled by microcontrolers.
In the context of the course, electronic circuits used in a variety of electronic systems are analyzed and designed, such as: power generators, timing circuits, oscillators and carrier wave modulators, frequency synthesizers and radio signal amplifiers.
CAD/CAM Systems, Modeling & Reverse Engineering – 7th Semester
Instructor: Maravelakis M.
Introduction to CAD / CAM systems, 3D models, Uses of CAD/CAM systems in the product life cycle, the evolution of CAD systems, Industrial Design, CAD/CAM in the industry, Surface and Solid Models, Introduction to Reverse Engineering, 3D Data Acquisition Techniques, 3D Data processing methods, Terrestrial Laser Scanning, Applications of Reverse Engineering, CAM Tools, Introduction to FEM Analysis, Rapid Prototyping, Additive Manufacturing Technologies and Applications
The course recommends the introduction to robotics of industrial arms of the open kinematic chain type. The course’s material aims at introducing students to solving the straight and reverse kinematic problem – position and speed – of typical industrial robotic arms.
Ecodesign – 8th Semester
Instructor: Maravelakis M., Kalderis D.
Basic Principles of Eco-Friendly Product Design and Development. Design for the Environment, Eco-design Principles (OS) and Innovation. Universal Design (Design for all), Design for Assembly, Design for Dissasembly. Environmentally friendly materials and product packaging. Environmental Management Systems and Ecological Planning. The life cycle of electronic devices and its environmental impact. Quantitative and qualitative methods for environmental impact assessment. Eco-labeling, Regulations and Directives of the European Parliament. Eco-design requirements for, Electronic Appliances, Air-conditioning and ventilation systems. Green roofs and ecofriendly houses.