Explore the programs and courses offered by Industrial electricity (State engineer)
Browse Programs Admission InformationFrom the fifth to the tenth semester, the program offers a progressive and comprehensive education in electrical and industrial engineering. Semester 5 strengthens the fundamentals through courses in Electrical Machines, Electromagnetic Field Theory, and Linear Control Systems, while introducing numerical methods and industrial maintenance. Semester 6 deepens these concepts with Electrical Networks, Power Electronics, Industrial Regulation, and includes a first internship for practical application. In Semester 7, emphasis is placed on Electrical Control, Industrial Automation, and Advanced Programming, preparing students for system design and network protection. Semester 8 focuses on Modeling and Optimization of Electrical Networks, Sampled Control Systems, and Industrial Computing, along with a second professional internship. Semester 9 is dedicated to Electric Drive Systems, Network Operation, Diagnostics, and Industrial Safety. Finally, Semester 10 culminates with the Final Year Project, conducted in collaboration with an industrial partner or within a startup framework, allowing students to apply their acquired skills to solve real-world engineering challenges.
The core subjects of the program include Electrical Machines, Electromagnetic Field Theory, Linear Control Systems, Power Electronics, Industrial Regulation, and Electrical Networks. These are complemented by courses in Industrial Automation, Microprocessors and Micro-controllers, Industrial Computing, and Applied Numerical Methods. Together, they provide a solid foundation for understanding, designing, and controlling modern electrotechnical and automated systems.
The program’s advanced subjects include Modeling and Optimization of Electrical Networks and Modeling and Identification of Electrical Machines. It also covers Power Electronics Design and System Monitoring and Diagnostics for enhanced reliability and performance. Students explore Smart Grids and Applied Artificial Intelligence to drive technological innovation. Additionally, the curriculum develops expertise in Energy Quality, Cyber-security, and Advanced Industrial Automation, addressing the complex challenges of modern industry.
Admission to the program is based on academic performance, open to candidates holding a bachelor’s degree or equivalent (bac+2) in electrical engineering, electronics, or related fields. Applicants are evaluated on their technical background, motivation, and capacity to pursue advanced engineering studies. A personal interview may be required to assess professional goals and suitability for the program. The formation is designed for students seeking to develop specialized expertise in electrical and industrial engineering and pursue dynamic careers in industry or research.