The Bachelor's degree in Electrical Engineering and Information Technology aims to provide practice- oriented teaching based on a scientific basis and methods of education that empowers a professional career as an electrical engineer or electrical engineer by German and international scale, and allows the inclusion of a Master's program. In addition, the interdisciplinary communication skills and teamwork goals should be pursued.

The course qualifies for the planning, processing and evaluation of comprehensive technical tasks and problems as well as to independently control processes in some areas of electrical engineering and information technology, particularly in the following fields of activities:

  • Development (conception, design, creation , testing, and quality assurance) , manufacturing ( production planning , production) and design of hardware and software components, assemblies and systems for electrical engineering and information technology according to the respective center of gravity
  • Distribution ( customer service and project management )
  • Installation, commissioning, operation and service of components and systems
  • Monitoring and assessment

The highest priority of competence to be attained is the professional and technical knowledge and the ability apply this to a variety of tasks. The qualifications of the students in the areas of scientific mathematics and electrical engineering will be tested. The majors ( " automation ", " Energy and Plant Engineering", " telecommunications " and " Technical Electronics ') will be additionally taught as industry-specific knowledge.

Through comprehensive training in these basic subjects, students should be able to recognize the essential relationships and gain the flexibility needed to meet the rapidly advancing technical developments. The training should also enable the students to recognize the effects of electrical engineering on the environment and to avoid adverse effects as far as possible.

The curriculum has a high practical content. Foreign subjects and English as a foreign language are integrated to prepare students for the wide variety of later occupation at home and abroad. Similarly, communication skills are worked on during seminars and during the internship semester. Graduates will have broad and in-depth mathematical, scientific and engineering based knowledge . Students are familiar with basic mathematical concepts and methods of developing engineering , physical and electrical fundamentals. They will have acquired an understanding of the multidisciplinary context of engineering. Furthermore, the general principles in the areas of specialization are deepened. Graduates know the relevant areas for the various concepts and methods. Current trends and tendencies in the information society and the need for independent lifelong learning are recognized.

Students can choose from the four priorities according to their personal interests and situation like:

Automation: Knowledge of automation and process control systems and the basics of digital communication systems. Knowledge about the particular challenges, the typical functions, and the technical realization of electronics in the vehicle and operation of robots. Ability for the design of electrical machines and drives, as well as the synthesis and analysis of digital communication systems. Capacity for analysis and dimensioning of power electronic circuits as well as with the design and construction of semi -autonomous robots. Expertise to the development of electronics with a focus on automotive electronics and power electronics. Assessing the performance of various systems in the vehicle.

Power Systems Engineering : Knowledge of calculation , structure and functioning of essential resources of electrical power as well as their simulation. Ability to apply theoretical principles and laws of physics to technical and economic problems of electrical engineering . Ability to design and dimension installations for renewable energy technology and power engineering and power electronics. Competence to assess the viability of renewable energy systems and to optimize resources of energy technology.

Communications Engineering : Knowledge of the basic principles of measurement and measurement of RF and communication engineering, the application of high-frequency circuits , the transmitter and receiver technology as well as analog and digital modulation techniques. Knowledge of the structure and operation of transmission systems . Ability to design high-frequency circuits of communication equipment to dimension and simulate with commercial CAD programs. Ability to describe communication systems and analyze and apply principles of communication engineering to communication systems. Competence to use both analog and digital modulation methods to dimension modulated transmissions and plan networks. Expertise to optimize circuits of the news and radio technology and to integrate more complex system components.

Technical Electronics : Knowledge of applications , manufacturing processes , design, layout and modeling of integrated circuits , as well as on the properties of high-frequency circuits and opto-electronic components. Knowledge of basic concepts and methods of quality assurance and the analog and digital image capture and image processing. Ability to integrate circuits and opto- electronic assemblies to use in practice. Ability to apply basic concepts and methods of quality assurance. Ability to dimension radio frequency circuits and to analyze and use image-processing systems.

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how to apply

25y thd


hochschulranking CHE siegel

u multirank siegel international orientation sw

u multirank siegel contact to work environment sw

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