Bachelors in Combining Electrical Engineering (EE) and Computer Science (CS)

3 Years On Campus Bachelors Program

Czech Technical University in Prague

Program Overview

The Bachelor's in Electrical Engineering and Computer Science (EECS) at Czech Technical University in Prague (CTU FEE) is a three-year English-taught program that blends EE and CS to equip you with versatile skills in electronics, programming, and cutting-edge tech—perfect for students excited about building robots, AI systems, or embedded software. It's ideal if you love hands-on invention and want the flexibility to shape your career in industry or advanced master's studies worldwide, with a strong emphasis on real-world problem-solving and 100% employability right after graduation.

Curriculum Structure
Year 1 lays a rock-solid foundation in core sciences and engineering basics, diving into Mathematics: Calculus 1+2 and Discrete Mathematics and Graphs to sharpen your analytical skills, alongside Fundamentals of Electrical Circuits where you'll master laws, theorems, and analysis methods for real circuits. You'll also explore Physics topics like waves theory and optics from BE5B02PH2, building intuition for how energy and signals work in tech, while getting started with Programming Essentials to code your first practical solutions.

Year 2 ramps up with practical electronics and computing, featuring Electron Devices (BE5B34ELP) to understand semiconductor physics, device structures, and analog/digital circuits that power modern gadgets. Courses like Microcontrollers (BE5B34MIK) teach embedded systems, architecture, and communication protocols, letting you program hardware directly, complemented by Algorithms (BE5B33PGE, BE5B33PRG) for efficient data structures and problem-solving in software.

Year 3 focuses on advanced integration and specialization, including Linear Algebra, Differential Equations and Numerical Methods, and Probability and Statistics for modeling complex systems. You'll tackle electives like Electromagnetic Field Theory (BE5B17EMT) or Signals and Systems (BE5B31TES) for modulation, filters, and frequency analysis, plus project work leading to your Bachelor Thesis, preparing you to innovate in AI, control systems (BE5B35ARI), or processors (BE5B35APO).

Focus areas: Power engineering, electronics, programming, cybernetics, algorithms, embedded systems, and information technologies—with high flexibility to customize your profile.

Learning outcomes: Graduates gain wide theoretical knowledge in math, physics, algorithms, and programming, plus proficiency in electrical engineering, software development, and economics/management for diverse careers or master's programs globally.

Professional alignment (accreditation): Fully accredited CTU FEE Bachelor of Science (B.Sc.) program, closely tied to faculty research in electrical engineering, informatics, and automation, ensuring industry-relevant skills.

Reputation (employability rankings): Ranked as the top electrical engineering and computer science faculty in the Czech Republic by QS, with 100% employment immediately after graduation and strong preparation for global opportunities.

Experiential Learning (Research, Projects, Internships etc.)

At Czech Technical University in Prague's Faculty of Electrical Engineering (FEE), the Bachelor's in Electrical Engineering and Computer Science (EECS) puts a strong emphasis on hands-on learning right from the start, blending theoretical foundations with real-world practice in electronics, programming, and embedded systems. You'll dive into practical skills through courses like Microcontrollers, Fundamentals of Electrical Circuits, and Electron Devices, where you build and test actual circuits, work with hardware, and program real devices using tools like FPGAs and VHDL for designing digital logic and embedded systems. This setup ensures you're not just learning concepts—you're inventing, soldering, and coding functional prototypes that prepare you for industry or advanced studies.

Here's how our facilities and projects make experiential learning come alive for EECS students::
- Laboratories for circuits and devices: Hands-on work in labs covering Fundamentals of Electrical Circuits (BE5B31ZEO) for analysis methods and Electron Devices (BE5B34ELP) for semiconductor physics, models, and analog/digital electronics.
- Microcontroller and embedded systems labs: Explore microcontroller architecture, peripherals, communication protocols, and embedded systems in courses like BE5B34MIK, building real hardware setups.
- FPGA implementation and VHDL design: Use FPGAs for circuit implementation, VHDL for describing combinational/sequential circuits, ModelSim for simulation and testing with breakpoints, and soft-core processors on chips.
- Software and research projects: Tackle group or individual projects like BE4MSVP (software/research) or BE5B35LSP (logic circuits), producing defended outputs such as computer programs, technical reports, or custom embedded systems.
- Programming and algorithms practice: Essential hands-on coding in Programming Essentials (BE5B33PRG), Algorithms (BE5B33PGE), with data structures and state-space search algorithms.

This practical edge, combined with our flexible study plan allowing you to tailor electives in power engineering, cybernetics, or IT, gives EECS grads a huge competitive advantage—100% employment post-graduation and seamless paths to master's programs worldwide. Imagine turning your ideas into working tech in Prague's top engineering hub—spots fill fast, so apply now at https://eecs.fel.cvut.cz to secure your future.

Progression & Future Opportunities

At Czech Technical University in Prague's Faculty of Electrical Engineering (FEE), the Bachelor's in Electrical Engineering and Computer Science (EECS) stands out for its hands-on approach, blending theoretical foundations with real-world practice right from the start. You'll dive into practical training through courses like Microcontrollers, Fundamentals of Electrical Circuits, Electron Devices, and Programming Essentials, using state-of-the-art labs to build and program actual systems—from embedded devices to algorithms in action. The program emphasizes inventing, building, and programming with soldering irons and digital tools, all while linking directly to FEE's cutting-edge research in areas like microelectronics, robotics, and machine learning.

This practical edge comes alive through dedicated facilities and opportunities tailored to EECS:
- Specialized laboratories for electron devices (BE5B34ELP), microcontrollers (BE5B34MIK), and electrical circuits, where you'll work on semiconductor physics, embedded systems, communication protocols, and analogue/digital electronics hands-on.
- Research-linked labs in microelectronics (design of integrated circuits, sensors, smart systems, EMC in PCBs), robotics (UGV/UAV control, sensor fusion), and biomedical engineering, open to undergrads for collaborative projects.
- Software and digital tools like programming environments for algorithms and data structures (BE5B33PGE, BE5B33PRG), plus advanced topics in computational game theory (XEP36AGT) and computer architectures (AD4M36PAP).
- Group projects and interdisciplinary work integrated into the flexible curriculum, including state-space algorithms, machine learning (BE5B33KUI), and system control (BE5B35ARI), fostering teamwork on real engineering challenges.

Imagine applying these skills through FEE's industry ties—grads land 100% employment, often straight into roles in software development, power engineering, or IT, with seamless paths to master's programs here or abroad. This is your chance to gain that competitive edge in a program designed for versatile experts.