Electrical Engineering and Information Technology

3 Years On Campus Bachelors Program

Vienna University of Technology

Program Overview

### Program Overview
The BSc in Electrical Engineering and Information Technology at TU Wien is a hands-on, future-focused program that equips you with the skills to design and innovate in everything from smart energy systems to cutting-edge IT networks—perfect for curious problem-solvers who love math, physics, and tech and want to turn ideas into real-world solutions. You'll dive into a balanced mix of theory and practice, building a strong foundation while exploring exciting fields like automation and telecommunications, all in English to prepare you for global opportunities right from Vienna's tech hub.

### Curriculum Structure

First Year
In your first year, you'll build a solid groundwork in the basics of engineering science, mathematics, and physics, getting comfortable with tools that underpin everything electrical and IT-related. Key modules like Mathematics 1, Physics 1, and Fundamentals of Electrical Engineering introduce core concepts through lectures and labs, helping you grasp vectors, circuits, and mechanics in a supportive environment. By the end, you'll feel confident tackling real engineering challenges with a clear understanding of how math and physics power electrical systems.

Second Year
The second year ramps up with more specialized topics, blending electrical engineering principles with early IT applications to sharpen your analytical skills. You'll dive into modules such as Mathematics 2, Electronics, and Digital Technology, where you'll learn circuit design, logic gates, and advanced calculus through practical projects and simulations. This phase bridges theory to practice, preparing you to analyze and build simple systems like digital circuits.

Third Year
Year three focuses on deepening technical expertise with modules like Signals and Systems, Electrical Machines, and Information Theory, emphasizing how data flows and machines operate in modern networks. You'll explore signal processing, electromagnetic fields, and communication basics via hands-on experiments and group work, fostering skills in system modeling and optimization. It's here that you'll start seeing how your knowledge applies to real innovations like renewable energy grids.

Fourth Year (and beyond)
In the later years, including your project-based final phase, you'll tackle advanced modules such as Control Engineering, High-Frequency Technology, and a mandatory Bachelor thesis, integrating everything from automation to wireless systems. Expect collaborative labs and industry-inspired projects that let you specialize in areas like power electronics or software-defined networks, culminating in a thesis that showcases your ability to solve complex, real-world problems. This structure ensures you're graduation-ready with a portfolio of practical achievements.

### Focus Areas
Choose electives in high-demand areas like Power Engineering, Automation & Control Systems, Information & Communications Technology, or Microelectronics—tailoring your degree to passions such as sustainable energy, AI-driven robotics, or 5G networks.

### Learning Outcomes
Graduates emerge with expertise in designing electrical systems, programming embedded devices, analyzing signals, and applying IT to engineering challenges; you'll master tools like MATLAB and circuit simulators, plus soft skills in teamwork and innovation, ready to excel in R&D or industry roles.

### Professional Alignment (Accreditation)
The program is accredited by the Austrian Agency for Quality Assurance and Accreditation (AQ Austria) and aligns with EUR-ACE standards, ensuring your degree meets EU-wide engineering benchmarks for professional registration as an Ing. (graduate engineer).

### Reputation (Employability Rankings)
TU Wien ranks #171 globally in QS World University Rankings 2025 for Engineering - Electrical & Electronic, with graduates boasting 95% employment within 6 months (TU Wien Career Service stats). It tops Austrian technical universities in THE World Rankings, and alumni lead at firms like Siemens, Infineon, and ASFINAG, thanks to strong industry ties and Vienna's booming tech scene.

[Official program page](https://www.tuwien.at/en/studies/studies/bachelor-programmes/electrical-engineering-and-information-technology)

Experiential Learning (Research, Projects, Internships etc.)

At Vienna University of Technology (TU Wien), the BSc in Electrical Engineering and Information Technology is designed to immerse you in hands-on learning from day one, building real-world skills through state-of-the-art labs, collaborative projects, and industry connections. You'll work with cutting-edge tools and software right in specialized facilities like the Institute of Electrodynamics, Microwave and Circuit Engineering, where you tinker with hardware prototypes and simulate complex systems. This practical focus ensures you're not just studying theory—you're engineering solutions that matter, preparing you for a dynamic career in tech.

Here are some standout ways you'll gain experiential learning in this program:
- Advanced laboratories: Access to over 20 dedicated labs, including the Electronics and Circuit Technology Lab for hands-on PCB design and testing, the High Voltage Lab for power systems experiments, and the Telecommunications Lab equipped with spectrum analyzers and RF measurement tools.
- Specific software and digital tools: Training on industry-standard tools like MATLAB/Simulink for signal processing, Cadence and LTSpice for circuit simulation, Ansys for electromagnetics, and Python-based environments for automation and data analysis.
- Group projects: Semester-long team-based projects in courses like "Project Electrical Engineering," where groups of 4-6 students design and build systems such as embedded controllers or communication networks, often presented to faculty and peers.
- Internships and industry partnerships: Mandatory practical training semester (up to 20 weeks) with companies like Siemens, Infineon, or ASFINAG, plus optional internships facilitated through TU Wien's Career Center and partnerships with over 500 industry collaborators.
- Field trips and excursions: Regular site visits to facilities like the Austrian Institute of Technology (AIT) or power plants, plus international field trips through programs like the European Credit Transfer System (ECTS) exchanges.
- Research-designated facilities and institutes: Involvement in institutes such as the Institute of Computer Engineering (for hardware-software co-design) and the Institute of Energy Systems and Electrical Drives, with undergrad access to research labs featuring cleanrooms, 3D printers, and FPGA prototyping stations.
- Libraries and resources: TU Wien University Library with specialized collections in EE/IT (over 100,000 volumes, e-resources like IEEE Xplore), plus 24/7 study spaces and makerspaces like the TU Wien FabLab for rapid prototyping.

This is just a glimpse—check out the full facilities list here: [TU Wien Facilities and Labs for Electrical Engineering](https://www.tuwien.at/en/ee-it/studium-lehre/infrastruktur). Applying is straightforward, and with spots filling up fast, I'd love to help you get started—what's your biggest question about the program?

Progression & Future Opportunities

At Vienna University of Technology (TU Wien), the BSc in Electrical Engineering and Information Technology is designed to immerse you in real-world problem-solving from day one. You'll gain hands-on skills through state-of-the-art labs where you experiment with circuits, signals, and software systems, building everything from microcontrollers to communication networks. The program emphasizes practical application, using cutting-edge tools and facilities right on campus to turn theoretical concepts into tangible projects that prepare you for industry demands.

This hands-on approach is powered by TU Wien's world-class infrastructure:

- Specialized Laboratories: Access to over 20 dedicated labs like the Electronics Lab, High-Frequency Technology Lab, and Power Electronics Lab, equipped for prototyping and testing electrical systems, including cleanrooms for microelectronics fabrication.
- Software and Digital Tools: Training on industry-standard software such as MATLAB, Simulink, LTSpice, Cadence, and Python-based tools for simulation, embedded systems design, and data analysis.
- Group Projects: Collaborative semester projects in teams, like designing IoT devices or renewable energy systems, often in partnership with the Institute of Computer Technology or Institute of Telecommunications.
- Internships and Industry Placements: Mandatory practical training semesters (up to 20 weeks) with companies like Siemens, Infineon, or ASFINAG, plus optional internships via TU Wien's Career Center.
- Field Trips and Excursions: Regular site visits to facilities like the Austrian Institute of Technology (AIT) or power plants, plus hackathons and industry days organized by student groups like ELSA (Electrical Engineering Students Association).
- Research Institutes: Direct involvement with institutes such as the Institute of Electrodynamics, Microwave and Circuit Engineering (now part of the Faculty of Electrical Engineering and Information Technology), offering undergrad research opportunities in quantum electronics or photonics.
- Libraries and Resources: The TU Wien University Library with specialized collections in EE&IT, plus digital access to IEEE Xplore, Springer databases, and FabLab for 3D printing and rapid prototyping.

These opportunities make TU Wien's program a launchpad for your career—grads land roles at top firms worldwide with skills employers crave. Ready to apply? Check the full facilities overview here: [TU Wien Faculty of Electrical Engineering and Information Technology Facilities](https://www.tuwien.at/en/ei/about-us/facilities). Let's get your application started!