INDUSTRIAL ELECTRONIC ENGINEERING AND IT

Course Code: EA 3205 • Study year: III • Academic Year: 2024-2025
Domain: Electronic engineering and telecommunications • Field of study: Applied Electronics
Type of course: Compulsory
Language of instruction: English
Erasmus Language of instruction: English
Name of lecturer: Elisabeta Mihaela Ciortea
Seminar tutor: Elisabeta Mihaela Ciortea
Form of education Full-time
Form of instruction: Class
Number of teaching hours per semester: 56
Number of teaching hours per week: 4
Semester: Summer
Form of receiving a credit for a course: Grade
Number of ECTS credits allocated 4

Course aims:

• The design and use of hardware and software applications less complex specific applied electronics.
• Applying knowledge, concepts and basic methods: power electronics, automation systems, electrical power management.
• Defining specific elements identifying the devices and electronic circuits in the fields of power electronics, automation systems, energy management, medical electronics, automotive electronics, consumer goods.
• Qualitative and quantitative interpretation of the functioning circuits in the fields of power electronics, automation systems, energy management, medical electronics, automotive electronics, consumer goods; operation analysis in terms of electromagnetic compatibility.
• Development of specifications, installation and operation of equipment in the fields of applied electronics: power electronics, automation systems, energy management, medical electronics, automotive electronics, consumer goods.

Course Entry Requirements:

• Using automated systems in manufacturing processes aimed at increasing performance.• The material presented gather and promote information available on industrial electronics and electric power conversion so that future electronic engineer profile.

Course contents:

• Electronic devices • Electronic circuits • Converting alternative tensions • Convert tensions continue • Elements of control systems theory • Electronic stabilizing • Electronic generators • Variable applications. • Inverters, Manure • Regulators, Stabilizers • Surveillance and control circuits • Modeling and control of manufacturing systems • Petri Networks and Applications, Matlab, Visual Object Net ++ • Colored Petri nets, CPN

Teaching methods:

Lecture, conversation, exemplification.

Learning outcomes:

• The manifestation of a positive and responsible attitudes towards continuous training in industrial informatics taken as part of their professional development. • Compliance with the rules specific prevention and firefighting and labor protection in industrial computing. • Understanding the importance of correct and efficient tools for documentation and information in the art.

Learning outcomes verification and assessment criteria:

Written paper – interpretative essay – 50%; continuous assessment – 50%.

Recommended reading:

• https://electrical-engineering-portal.com/download-center/books-and-guides
Bogdan M. Wilamowski, J. David Irwin, -Fundamentals of Industrial Electronics, CRC Press, 2017, 737.
Daniel J. Shanefield, -INDUSTRIAL ELECTRONICS FOR ENGINEERS, CHEMISTS, AND TECHNICIANS, WITH OPTIONAL LAB EXPERIMENTS, Noyes Publications, 2001, 282.
https://frank.pocnet.net/other/Philips/Kretzmann_IndustrialElectronicsHandbook_1964.pdf 1964, 320.