M.SC. IN Electrical Engineering

M.Sc. in Electrical Engineering (Faculty of Control, Robotics and Electrical Engineering)

  • Duration: 1.5 years (3 semesters)

  • Start Date: February/March 2026

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Fees for International Students:

  • First Semester: 10,900 PLN

  • Each Following Semester: 9,600 PLN

Fees FOR POLISH STUDENTS

Electrical engineering is a dynamic and broad field that involves the generation, transformation, transmission, distribution, storage, and use of electricity. This constantly evolving discipline covers areas such as circuit theory, electromagnetic fields, signal processing, control systems, robotics, information technology, communications, and electronics. Due to its wide scope, it offers various specializations and diverse career opportunities.

Graduates of electrical engineering can work across several industries, including automotive construction, power engineering, transmission systems, medical equipment, IT, and microprocessor programming. Moreover, the electrical engineering master's degree grants the ability to apply for an electrical license in the construction industry, enhancing job prospects and earning potential.

Skills Acquired:

  • Independent self-study and organizational work

  • Ability to prepare technical documentation and analyze complex information

  • Problem-solving in dynamic, rapidly evolving sectors

Electrical engineering graduates are highly sought after both domestically and internationally, and their expertise ensures they are part of one of the most rapidly advancing fields of technology.

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M.Sc. in Electrical Engineering - Drive Systems in Industry and Electromobility (Faculty of Control, Robotics and Electrical Engineering)

This specialization focuses on the design, control, and operation of electric drive systems in industry and electromobility. Key aspects include:

  • Electric Drive Systems: Construction, operation, and control of electric drives used in various industries and electromobility applications.

  • Simulation and Design: Application of professional software (e.g., Maxwell, MagNet, MotorSolve, Comsol, Inventor, Matlab) for designing and testing electrical machines.

  • Automation and Control: Principles and methods of controlling industrial servo drives and automation of drive systems.

  • Diagnostics: Modern methods for diagnosing electric drive systems.

  • New Technologies and Materials: Incorporation of cutting-edge technologies and materials in electromechanical converters.

  • Data Analysis and Visualization: Use of modern tools for analyzing and visualizing computer simulation results and measurement data.

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M.Sc. in Electrical Engineering - Electrical Systems in Industry and Vehicles
(Faculty of Control, Robotics and Electrical Engineering)

Graduates of the Drive Systems in Industry and Electromobility specialization are highly sought after in the job market due to the growing demand for expertise in electric drive systems. They can find interesting and well-paid positions in leading companies, such as:

  • Volkswagen

  • Solaris

  • Modertrans

  • PESA

These companies specialize in manufacturing electrical, electronic, and IT equipment for vehicles, as well as systems for diagnostics in automotive and transportation sectors. Graduates can work in roles related to the design, development, and optimization of electric drive systems, making a significant impact in the growing field of electromobility.

This specialization offers promising career opportunities, particularly in the rapidly evolving electric vehicle and transportation industries.

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M.Sc. in Electrical Engineering - Lighting Engineering
(Faculty of Control, Robotics and Electrical Engineering)

An important element of the Lighting Engineering specialization is the study of current issues in lighting technology. This part of the curriculum aims to:

  • Familiarize students with the latest challenges and developments in the lighting industry.

  • Provide an in-depth understanding of technological innovations in lighting systems.

  • Equip students to analyze and assess changing legislative conditions and standards in the lighting field.

Students will gain knowledge in areas such as energy efficiency, sustainability in lighting, smart lighting systems, and the regulatory frameworks that govern the industry. This specialization ensures that graduates are well-prepared to tackle both the technical and regulatory aspects of modern lighting systems, making them valuable professionals in an ever-evolving field.

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M.Sc. in Electrical Engineering - Microprocessor Control Systems in Electrical Engineering (Faculty of Control, Robotics and Electrical Engineering)

The Microprocessor Control Systems in Electrical Engineering specialization focuses on the design and implementation of electronic and power electronic systems used in a variety of applications. Key areas include:

  • Renewable energy sources: Designing control systems for sustainable energy solutions.

  • Uninterruptible power supplies (UPS): Ensuring continuous power in critical applications.

  • Automotive and special-purpose applications: Developing systems for vehicles and specialized industries.

The program also emphasizes:

  • Exploitation of electronic systems: Including both analog technology and microprocessor technology.

  • Use of digital signal processors (DSPs), PLD circuits, and PLC controllers for advanced control applications.

  • Power electronic systems: Understanding their integration and optimization.

Additionally, students are encouraged to engage in independent research through the MICRO Student Scientific Association, where they can explore and contribute to the advancement of control systems and electronic applications. This program ensures that graduates are highly skilled in the latest control technologies and ready to tackle challenges in diverse industries.

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M.Sc. in Electrical Engineering - Smart Measurement Systems
(Faculty of Control, Robotics and Electrical Engineering)

The Intelligent Measurement Systems specialization is tailored for students interested in measurement electronics, sensors, and measurement signal processing. This program emphasizes hands-on learning and the development of practical skills through laboratory classes, where students gain experience with cutting-edge measurement equipment.

Key aspects of the program include:

  • Programming Techniques: Students will learn to use a variety of programming languages and tools such as Matlab, Python, LabView, and SCADA to tackle measurement challenges.

  • Modern Laboratory Facilities: The program offers access to state-of-the-art labs, allowing students to work independently with advanced measuring devices and gain practical experience in the field.

Graduates of the Intelligent Measurement Systems specialization can pursue careers in various sectors, including:

  • Production and distribution of electronic and measuring devices: Working with companies that create and distribute advanced measurement instruments.

  • Metrology laboratories: Specializing in the science of measurement and ensuring accurate standards in various industries.

  • Industrial automation: Applying their skills in sectors that involve automated systems and processes.

This specialization ensures that students are equipped with the knowledge and hands-on experience needed to excel in electronic measurement and automation industries.

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STEP-BY-STEP ADMISSION PROCESS FOR INTERNATIONAL APPLICANTS

ADMISSION FOR POLISH CANDIDATES

ADMISSION FOR INTERNATIONAL CANDIDATES

Do you have questions? Contact us at: study@put.poznan.pl