Программа обучения Electrical Engineering

Программа обучения "Electrical Engineering" в Technische Universität Dresden

Elektrotechnik

If you would like to help shape one of the key technologies for sustainable technical progress, then the electrical engineering degree is just right for you! The degree in electrical engineering at TU Dresden combines all of the contents of the Bachelor and Master’s degree and combines these with other skills in a classic diploma degree. We made a conscious decision to retain the academic degree of qualified engineer (Dipl.-Ing.): Graduated engineers enjoy a very good reputation and have excellent career prospects in industry and business. The graduate engineer is at least equivalent to the master’s degree: We confirm this to our graduates with a certificate. They are given a well-known and proven seal of quality, which ideally prepares them for industrial and scientific professional activities.

Общая Информация по Программе обучения "Electrical Engineering"

  • Уровень: Дипломированный Специалист
  • Диплом: Diplom-Ingenieur (Dipl.-Ing.)
  • Язык обучения: Немецкий
  • Начало обучения: Зимний семестр
  • Срок обучения: 10 семестров
  • Форма обучения: Полная
  • Учебные кредиты: 300 ECTS
  • Стоимость: € 0 / Семестр
  • Семестровый взнос: € 304.50 / семестр
  • Правила приема: Без конкурса
  • Минимальный уровень немецкого: C1
  • Подходящий курс Штудиенколлег: T-Kurs

Описание программы обучения "Electrical Engineering"

Human-machine interaction, modern energy systems, sensors and sensor systems, biomedical technology, information and entertainment electronics, electromobility - these are just a few examples of the numerous specialist areas in electrical engineering. Products and developments in electrical engineering are omnipresent, contained in many things in everyday life and have become indispensable in many areas. Everyday life without electrical and electronic devices is hardly imaginable these days. Electrical engineering, and in particular electrical energy engineering, is central to the new solutions that are urgently needed in the energy transition by 2050, the resource-neutral coverage of our entire social energy needs. Electrical energy is therefore the most important resource in our society. Their environmentally friendly, efficient generation, transmission and optimized use in devices is a central task in electrical engineering and the most important lifeline for a sustainable lifestyle in a modern society.

Electrical engineering includes all processes that deal with the generation, use and distribution of electricity. Electrical engineers develop devices and processes based on electrical energy. Electrical engineering uses electrical and electromagnetic phenomena and laws for technical applications. How is electricity created? How is it transmitted from one place to another? How can we use it? How does a smartphone work? How is a power plant supplied with electricity? - Just a few of the many questions that electrical engineering deals with. For some time now, electrical engineering has been increasingly shaped by information technology, communications engineering, communication technology and microelectronics, and computer science is also becoming increasingly important.

Карьерные перспективы по завершению программы обучения "Electrical Engineering"

Since electrical engineering shapes all areas and technologies of the modern world, the need for qualified electrical engineers is correspondingly high and increasing continuously. This trend is technologically based and will continue. That is why graduates of the electrical engineering degree expect excellent future prospects in an exciting, varied profession.

The breadth of the specialist areas in electrical engineering is reflected in the diversity of potential fields of work. From chip factories to optics companies, from power plants to mechanical engineering companies, from automobile manufacturers to chemical factories, in the manufacturing and process industry or the mobile communications and telecommunications industry: Depending on the focus of their studies, graduates can work in a wide variety of industries such as information and communication technology, vehicle technology, Medical technology, energy technology or the semiconductor industry. Depending on their personal preferences and inclinations, the electrical engineers can freely choose whether they want to work in research, development, project planning, production or sales.

The participation of students in international research projects is an integral part of the electrical engineering degree and offers the opportunity to earn additional income in the context of exciting and subject-related activities. This enables graduates to make a seamless transition to a doctorate (doctoral degree) or a good start into professional life after completing their studies.

Международный обмен по программе обучения "Electrical Engineering"

Fancy a semester abroad? Semester abroad, internships or language courses - as a student, you will definitely benefit from a stay abroad. You can improve your technical and language skills, make contacts, make friends, get to know other cultures and much more.

Стажировки и практика в программе обучения "Electrical Engineering"

Until the completion of the study, an internship of 26 weeks must be completed, which is divided into 6 weeks of a basic internship and 20 weeks of a specialist internship. We recommend that you complete the basic internship before starting your studies. Relevant vocational training can be recognized as basic practice. In the main course (7th semester) the students complete 20 weeks of internships.

Учебный план программы обучения "Electrical Engineering"

The course comprises a four-semester basic course, which is the same for all students, and a main course structured according to fields of study. In addition, through elective courses, students have the opportunity to customize their training to a large extent according to their interests and inclinations.

Basic studies (1st to 4th semester)
During the basic course, students learn the basics of: electrical engineering, mathematics, natural sciences, computer science and microcomputing, system theory, automation and measurement technology, electrical energy engineering, device development, materials and technical mechanics, microelectronics and communications engineering.

Main course (5th to 10th semester)
In the 5th semester, students choose one of the following fields of study:

For those interested in robotics: automation, measurement and control technology
If you want to help shape the future of human-machine interaction, this field of study is perfect for you! Here you gain know-how about robotics and industrial automation technology. In addition, through modeling and simulation, you will learn how measuring systems and automation systems are designed and configured.

For world savers: electrical energy technology
If you are wondering how we can protect our environment in the future and at the same time meet our energy needs, this field of study offers you knowledge and methods with which you can work on sustainable energy solutions. You will learn how regenerative energies are used efficiently, how to ensure a reliable energy supply and how energy-saving power electronics as well as electrical machines and drives are planned.

For inventors: device, micro and medical technology
This field of study is perfect for everyone who is fascinated by the latest technologies and at the same time wants to create creative solutions in their job that help people and improve their lives in the long term. Here students learn how assemblies and devices are developed and designed so that they can be operated in an energy-saving and reliable manner and adapted to the respective application, such as portable electronics in / on people or in medical and sensor electronics, control and drive electronics in electric vehicles , Processor or memory technology in the computer system.

For communication visionaries: information technology
How we will communicate with one another and find information in the future will be determined by engineers who have specialized in information technology. You develop information and entertainment electronics, acoustics and communication technologies of the future.

For game changers: microelectronics
Students in this field of study deal with new types of electronics materials and thus determine the properties and possible uses of the electronics of the future. You develop innovative optoelectronic and micromechanical components, integrated circuits, as well as sensors and sensor systems.

  • Учебный план / модули: https://tu-dresden.de/ing/elektrotechnik/studium/studieren-an-der-fakultaet/pruefungen/studiendokumente-und-ordnungen#section-1
    https://tu-dresden.de/studium/vor-dem-studium/ressourcen/bilder/studierendenmarketing/sins/elektrotechnik_d_graphik/@@images/c985c910-5045-47e5-a87a-3d9d20a90de2.jpeg
    https://tu-dresden.de/ing/elektrotechnik/ressourcen/dateien/studium/dipl-et/wahlpflichtkatalog-et.pdf?lang=en
    https://www.verw.tu-dresden.de/AmtBek/PDF-Dateien/2017-16/12poDE27.07.2017.pdf
    https://www.verw.tu-dresden.de/AmtBek/PDF-Dateien/2017-16/12soDE27.07.2017.pdf
  • Факультет

    Faculty of Electrical and Computer Engineering
    Technische Universität Dresden

    Tradition and innovation, successful education and research, distinguished scientists and highly motivated young researchers define the profile of the Faculty of Electrical and Computer Engineering at the TU Dresden. In teaching and research, the faculty covers the complete field of electrical engineering and information technology.

    Записаться на поступление на программу обучения

    Electrical Engineering