The Electrical Engineering programme is a part of the School of Engineering at the SRH University Heidelberg. Our hands-on learning approach is supported by the laboratories of the Technology Center. Aims of the Course Acquiring the ability to independently further develop electronic applications, from idea to prototype Acquiring a solid knowledge of electrical engineering and its mathematical and physical foundations, and acquiring the ability to use these for technical innovation Contents: Mathematics and Physics Electrical Engineering and Applied Informatics Construction Elements / Layout Design Systems Theory Business Administration Measuring Technology and Circuit Technology Sensing and Actuating Technology Computer Networks and Bus Systems various subjects in the two Majors Electromobility and Life Science Engineering Content of the Study Majors Electromobility digital technology power electronics vehicle technology transmission processes embedded systems Life Science Engineering anatomy and physiology / biosensors biomedical signal acquisition telemedical signal acquisition modelling and simulation applied life science

Overview Degree Bachelor of Engineering (B.Eng.) Credit Points 210 Duration of Study 3.5 years Starting Annually 01 October Study model Full time Entrance criteria To study at the SRH University of Applied Science in [WU(HH1] Heidelberg, you must fulfill one of the following requirements: General qualification for entering university (Abitur) Special vocational qualification for entering university (Fachabitur) Advanced technical college entrance qualification (Fachhochschulreife) Minimum of two years' vocational training and at least three years of professional experience, plus entrance examination For foreign applicants: University entrance qualification or equivalent Plus in addition: Documented English skills if English is not your native language (TOEFL or similar) Personal interview Languages English Exchange semester / Internship includes 90 days of external internship at a company of your choice Tuition Fees 620 € per month + one-time registration fee of 650 € Content, objective and process of study Design innovative electronic products in a stimulating atmosphere Are you interested in developing efficient electric vehicles, or electronic instruments for medicine? Then this is the course for you. Electrical engineering involves, among other things, the scientific application of electronics and information technology. Our central focus is on the areas of electromobility and life science engineering. As an electrical engineer, you will develop reliable electronic products, or take on a key position (head or expert) in sales and distribution, in the office or in the field. Electromobility Electromobility enables the practical combination of climate protection, resource preservation and industrial policies. As an example, electromobility allows the efficient conversion of the volatile feed of electrical current from decentralized renewable energy sources, particularly wind energy, into sustainable mobility. This is achieved by using intelligent networks and electricity supply meters (smart grids, smart metering) in the mobile electrical storage units of electric vehicles. This represents a fundamental change of system, in which technologies and applications are combined with each other effectively and innovatively. Electric vehicles, traffic networks, electricity networks and ICT networks will grow together in the future. Electromobility is thus much more than a further development of the automobile to an electric vehicle. The question is not whether this advance in technology will be achieved, but when, how, and by whom first. Life Science Engineering The life science industry is a growing branch with a future, offering you excellent professional opportunities. Research and teaching in the major Life Science Engineering are characterized by three leading principles: consistent orientation towards the challenges of daily life in the areas of health, safety, mobility, communication, and the environment a theoretically and methodologically sound approach to these areas the design of learning processes with an intensive mutual exchange of ideas between scientists in different disciplines and people from politics, the business world and society in general. This trans-disciplinary approach allows our students to learn from the interactions of electrical engineering and electronics, information science and information technology, mechatronics, systems technology and sustainability. Aims of the Course Acquiring the ability to independently further develop electronic applications, from idea to prototype Acquiring a solid knowledge of electrical engineering and its mathematical and physical foundations, and acquiring the ability to use these for technical innovation Contents: Mathematics and Physics Electrical Engineering and Applied Informatics Construction Elements / Layout Design Systems Theory Business Administration Measuring Technology and Circuit Technology Sensing and Actuating Technology Computer Networks and Bus Systems various subjects in the two Majors Electromobility and Life Science Engineering Content of the Study Majors Electromobility digital technology power electronics vehicle technology transmission processes embedded systems Life Science Engineering anatomy and physiology / biosensors biomedical signal acquisition telemedical signal acquisition modelling and simulation applied life science Your Course of Studies - Divided into Modules Year 1 Year 2 Year 3/4 Module Credit Points 15 Networks 8 16 Quality and Statistics 8 17 Bus Systems 8 18 Study Major I 8 19 Study Major II 8 20 Study Major III 8 21 Study Major IV 8 22 Study Major V 8 23 Bachelor Thesis and Colloquium 15 Total 210 Module Credit Points 01 Engineering Fundamentals I 8 02 Engineering Fundamentals II 8 03 Basics of Informatics 8 04 Business Studies 8 05 Electrical Engineering 8 06 Electrical Engineering/Measuring Technology 8 07 Circuit Technology 8 08 Planning and Communication 8 Module Credit Points 09 Construction Elements/Layout Design 8 10 System Analysis 8 11 Automatic Control Technology with Simulation 8 12 Project 8 13 Sensing and Actuating Technology 8 14 Internship 27 Module Credit Points 15 Networks 8 16 Quality and Statistics 8 17 Bus Systems 8 18 Study Major I 8 19 Study Major II 8 20 Study Major III 8 21 Study Major IV 8 22 Study Major V 8 23 Bachelor Thesis and Colloquium 15 Total 210 Module Credit Points 01 Engineering Fundamentals I 8 02 Engineering Fundamentals II 8 03 Basics of Informatics 8 04 Business Studies 8 05 Electrical Engineering 8 06 Electrical Engineering/Measuring Technology 8 07 Circuit Technology 8 08 Planning and Communication 8 Career, perspectives Make Yourself Fit For Progress As an electrical engineer, you are an innovator in modern society. By emphasizing the right majors, you can specialize in the current and future challenges facing the industry. Sectors / Areas of Work: Telecommunications Automotive Industry Mechanical Engineering and Plant Manufacturing Food Industry Chemical Industry Medical and Microsystems Technology Energy Industry Aerospace Industry Traffic Technology and Regulation Engineering and Construction Offices Software Companies Examples of Functions: Research and Development Planning and Project Management Inspection and Quality Management Sales and Marketing Management