Electrical Engineer Bsc

In the Electrical Engineer BSc at Budapest University of Technology and Economics (BME), you'll dive straight into hands-on learning from day one, building real-world skills through a curriculum that blends programming basics, digital and control engineering, signals and systems, electromagnetic fields, microelectronics, electronics, measurement technology, infocommunications, power systems, and embedded/control systems. As part of the Faculty of Electrical Engineering and Informatics—the top training and research hub in Hungary for this field since 1949—you'll have access to cutting-edge labs and infrastructure that let you tackle everything from high-current electrical engineering to microelectronic tech, preparing you for specializations like Embedded and Control Systems, Infocommunication, or Sustainable Electric Energetics.

This practical focus means you'll work with industry-standard tools and setups right in your courses:

- State-of-the-art laboratories covering microelectronics to power electronics, robotics, space technology, embedded systems, and telecommunications, with modern infrastructure supporting both training and research.
- Programming and software tools integrated throughout, including basics of programming alongside digital engineering and informatics for tasks in electronics, control systems, and infocommunications.
- Electronics and measurement labs dedicated to materials in electronics, electronics technology, measurement technology, and instrumentation for hands-on experimentation.
- Power and high-voltage facilities focused on electrical engineering, power systems, electromagnetic fields, and sustainable energetics to simulate real engineering challenges.

Imagine applying for this program and stepping into BME's world-class setup—it's designed to turn your passion for electrical engineering into expertise employers crave. 

At Budapest University of Technology and Economics (BME), the Electrical Engineer BSc program dives deep into hands-on learning right from the start, giving you practical skills in areas like programming, digital and control engineering, signals and systems, electromagnetic fields, microelectronics, electronics, measurement technology, infocommunications, electrical power engineering, and embedded systems. You'll work with cutting-edge tools and facilities at the Faculty of Electrical Engineering and Informatics—the largest and most prestigious in Hungary for electrical engineering training and research since 1949—to tackle real-world tasks in specializations like Embedded and Control Systems, Infocommunications, or Sustainable Electric Energetics. This means building expertise through labs, projects, and tech that prepare you for industry right away, with degrees highly valued nationally and internationally.

Here's how you'll gain that experiential edge:
- Laboratories for research and practice: Access modern labs covering the full spectrum of electrical engineering, from microelectronics and power electronics to embedded systems and measurement technology, supporting hands-on work in electronics, instrumentation, and control.
- Programming and software skills: Balanced training in basics of programming, computer science, and informatics, including tools for digital engineering, signals & systems, and embedded/control systems—essential for real engineering tasks.
- Group and specialized projects: Project-oriented curriculum where you'll apply knowledge in narrow professional fields, like designing systems in infocommunications or sustainable energetics, often collaboratively after the first four semesters.
- Research institute integration: The Faculty of Electrical Engineering and Informatics serves as Hungary's top research hub, with infrastructure for PhD-level work that's open to undergrads, including electromagnetic fields, microelectronic manufacturing, and high-voltage engineering.

Imagine turning these experiences into your launchpad for a thriving career—BME grads are in high demand!