General description of the degree program Name of the degree program: Degree awarded: Electrical Engineering Power Engineering and Renewable Energy Bachelor of Engineering (B.Eng.) Educational and professional goals: The expansion of renewable energies and secure supply of electric power are today's topics of the future. Today (2010) 19% of the net energy demand is already covered by sources of renewable energy. According to a survey carried out by Fraunhofer IWES, this share will grow to 45% by 2020. Program duration: Pre-study work experience: Conditions of admission: Traineeship semester: Start of program: Application deadline: Language of instruction: Applicant profile: Access to further studies: Graduates of the bachelor's degree program Electrical Engineering Power Engineering and Renewable Energy have excellent job prospects in both the classical field of work (with energy providers/public utility companies/industrial power suppliers) and the environmental work area (according to VDI study, up to 1 million workplaces in Germany by 2020). 7 semesters or 7x30 = 210 ECTS 2 months General or subject-specific university entrance qualification or comparable entrance qualification Ranking is created using the university entrance qualification grades and weighted grades for the individual subjects of Mathematics, German (or appropriate language for a foreign entrance qualification), English, Physics / Electrical Engineering. Bonus points are awarded for a vocational qualification. For students from abroad: proof of satisfactory knowledge of German. 5th semester is traineeship semester in summer and winter semester 15 January (summer semester) 15 July (winter semester) German What assets should you bring to the table in order to be accepted into the degree program Electrical Engineering Power Engineering and Renewable Energy? First of all, you should of course be interested in technology. Secondly, you should have a good GPA (grade point average) for the subjects Mathematics, German, English, Physics or Electrical Engineering, as the grades for these subjects in particular are taken into account. Master Course structure with ECTS credits: See annex, pages 1-3 Final examination: Bachelor s thesis and colloquium Examination regulations: See annex, pages 2-4 ECTS Departmental Coordinator: Professor Franz Quint
Annex Tables for the degree program Explanation of the content of the columns and the abbreviations in the tables 1 and 3: Column no. 1 Course code (EDV-Bez.) 2 Course title (course) 3 Semester in which the course is offered (sem.) 4 Credits (CP) and contact hours per week (CHW) 5 Course type (type) V = Lecture S = Seminar Ue = Exercise La = Lab PA = Project work 6 Prerequisites for admission to the exam procedure (Voraus.) 7 Type of study credits/pre-examination credits (SL/PV / Dur) 8 Type of examination credits specifying duration in minutes, if no other unit is specified (PL/ Dur) For 7 and 8 The following can be designated as study or examination credits: MP = Oral exam Re = Presentation Kl = Written exam La = Lab work St = Study assignment En = Concept Ue = Exercises PA = Project work Ha = Written assignment BT = Bachelor's thesis The following applies for the duration S = Semester W = Week(s) T = Day(s) 9 Weight for subject grade (GFN) 10 Assigning examination credits to subject examination (FP) 11 Note For 6 to 11 The following abbreviations are used: Block = Block course 4 = This examination must be completed with a minimum grade of satisfactory (4.0) Tf = Subject scheduled for a specific semester FP = Subject examination üpl = Cross-course examination credits bpl = Study-related examination credits PS = Practical study semester LV = Course BV = Bachelor preliminary examination WPf = Elective course Explanation for tables 1 and 2: The column "Weight for overall grade" indicates the weighting of the individual subject examinations for calculation of the Preliminary Bachelor's examination grade and the final grade. WPf listed in table 3, in the Note column, stands for elective module.
Degree program: Electrical Engineering - Power Engineering and Renewable Energy Degree awarded: Bachelor Table 1 Foundation courses 1 2 3 4 a 4 b 5 6 7 a 7 b 8 a 8 b 9 10 11 EDV- Course sem CP CHW type Voraus. SL/PV Dur. PL Dur. GFN FP Note Bez. Basics of Renewable 1 6 4 V+V Kl 60 Kl 90 1 Energy Higher Mathematics 1 1 6 6 V Kl 120 2 Electrical Engineering 1 1 6 6 V+V Kl+Kl 90+90 1+1 3 4 Information Technology 1 1 6 4 V+Ue Ue 1 S Kl 90 4 Physics 1 6 6 V+V Kl 60 Kl 90 5 Renewable Energies 1 2 4 4 V Kl 90 6 Higher Mathematics 2 2 6 6 V Kl 120 7 Electrical Engineering 2 2 6 6 V+La La 1 S Kl 120 8 Microcontroller Systems 2 8 6 V+La La 1 S Kl 120 9 Information Technology 2 2 6 4 V+Ue Ue 1 S Kl 90 10 Total Foundation courses 60 CP 52 CHW 6 PV 11 bpl 10 FP
Degree program: Electrical Engineering - Power Engineering and Renewable Energy Degree awarded: Bachelor Table 2 Bachelor preliminary examination EDV-Bez. Name of examination Examination Related courses Weight for overall grade of Note Bachelor preliminary examination Subject examination Basics of Renewable Energy FP1 Basics of Renewable Energy 1 Higher Mathematics 1 FP2 Higher Mathematics 1 1 Electrical Engineering 1 FP3 Electrical Engineering 1 1 Information Technology 1 FP4 Information Technology 1 1 Physics FP5 Physics 1 Renewable Energies 1 FP6 Renewable Energies 1 1 Higher Mathematics 2 FP7 Higher Mathematics 2 1 Electrical Engineering 2 FP8 Electrical Engineering 2 1 Microcontroller Systems FP9 Microcontroller Systems 1 Information Technology 2 FP10 Information Technology 2 1
Degree program: Electrical Engineering - Power Engineering and Renewable Energy Degree awarded: Bachelor Table 3 Advanced courses 1 2 3 4 a 4 b 5 6 7 a 7 b 8 a 8 b 9 10 11 EDV- Bez. Course sem CP CHW type Voraus SL/PV Dur. PL Dur. GFN FP Note Renewable Energies 2 3 6 4 V Kl 90 11 Higher Mathematics 3 3 4 4 V Kl 120 12 Measurement Technology 3 5 5 V+La La 1 S Kl 120 13 Electronics 3 5 5 V+La La 1 S Kl 120 14 System Theory 3 4 4 V Kl 120 15 Electrical Machines 1 3 6 4 V Kl 90 16 Renewable Energies 3 4 6 4 V+La La 1 S Kl 60 17 Electrical Power Supply 4 4 4 V Kl 90 18 Theoretical Electrical 4 4 4 V+V Kl+Kl 60+60 1+1 19 4 Engineering and High Voltage Technology Control Technology 4 6 6 V+La La 1 S Kl 120 20 Electrical Machines 2 4 6 6 V+V Kl 60 Kl 90 21 Power Electronics 4 4 4 V Kl 120 22 Total 30 CP 28 CHW Internship 5 24 PA PA 95 T 23 Internship preparation and 5 6 4 S Ue+Re 1 W+20 23 Block follow-up Total 30 CP 4 CHW Energy Efficiency 6 6 6 V+V Kl+Kl 60+60 1+1 24 Electrical networks 6 6 6 V Kl 120 25 Industrial Automation 1 6 6 6 V+La La 1 S Kl 120 26 Elective module I 6 6 6 27 WPf 43 (6) Elective module II 6 6 6 28 WPf 43 (6) Energy Industry 7 8 4 V+S Re 20 Kl 90 29 Block Methodical approach 7 7 4 PA Re 20 30 Block Bachelor Thesis 7 12 BT 4 31 Final colloquium 7 3 MP 30 1 31 Total 30 CP 8 CHW Total Advanced courses 150 CP 94 CHW 11 20 Total Bachelor's degree program 210 CP 144 CHW 17 31
Degree program: Electrical Engineering - Power Engineering and Renewable Energy Degree awarded: Bachelor Table 4 Bachelor's examination EDV-Bez. Name of examination Code Related courses Weight for overall grade Note Subject examination Renewable Energies 2 FP11 Renewable Energies 2 3 Higher Mathematics 3 FP12 Higher Mathematics 3 3 Measurement Technology FP13 Measurement Technology 3 Electronics FP14 Electronics 3 System Theory FP15 System Theory 3 Electrical Machines 1 FP16 Electrical Machines 1 3 Renewable Energies 3 FP17 Renewable Energies 3 3 Electrical Power Supply FP18 Electrical Power Supply 3 Theoretical Electrical Engineering and High FP19 Theoretical Electrical Engineering 3 Voltage Technology and High Voltage Technology Control Technology FP20 Control Technology 3 Electrical Machines 2 FP21 Electrical Machines 2 3 Power Electronics FP22 Power Electronics 3 Energy Efficiency FP24 Energy Efficiency 3 Electrical networks FP25 Electrical networks 3 Industrial Automation 1 FP26 Industrial Automation 1 3 Elective module I FP27 3 WPf Elective module II FP28 3 WPf Energy Industry FP29 Energy Industry 3 Scientific Working Techniques FP30 Scientific Working Techniques 3 Final examination FP31 Bachelor's thesis Final colloquium 6