Module descriptions Bachelor degree course - Elektrotechnik ...

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6 Design 1 Weekly hours: 4 Credits: 5 Lectures: 2 SU, 2 Ü Assessment: See Study Plan Aim: � Getting to know the character of national and international engineering standards, Understanding of and working using engineering standards � Getting to know basics defining the fields development and design, what is done during design, what can be expected of it � Ability to design precision mechanical and mechatronical base elements, and to dimension and illustrate them graphically � Ability to apply above-mentioned base elements adequately and to assess their use in consideration of production, function, and cost effectiveness for existing products Content: � Character of engineering standards, standardisation � Standards for technical drawing � Exercises for this � Standard parts � All substantial standards for tolerances and fits � Selection of fits, calculations of fits, calculations of tolerances, shape tolerances and position tolerances, and their usage in technical documents � Surfaces, roughness, depth of roughness, and their usage in technical documents Reading List: � Standard sheets and standard books � Klein, M.: Einführung in die DIN-Normen, B.G. Teubner, Stuttgart, Beuth Verlag Berlin � Böttcher, P.; Forberg, R.: Technisches Zeichnen, B.G. Teubner, Stuttgart, Beuth Verlag Berlin Workload: It is expected that the average student will require 150 hours of study to acquire the necessary knowledge and abilities. These hours can be divided as follows: 44 hours attendance of lectures and practical <strong>course</strong>s 30 hours regular study of the syllabus 50 hours preparation of exercises and individual study 26 hours exam preparation This is worth 5 credits.
7 Design 2 * Weekly Hours: 6 Credits: 6 Lectures: 4 SU, 2Ü Assessment: See Study Plan Aim: � Knowledge of mechatronical constructional elements fundamental for mechatronics / precision engineering � Knowledge of approach to dimensioning and strength proof of mechatronical constructional elements � Knowledge of essential design rules for mechatronical constructional elements � Knowledge in using a 3D-CAD-system for modelling of parts and assemblies and for creation of drawings � Ability to select mechatronical constructional elements according to the intended application, to design and apply them within assemblies, and to create documents for production Content: � Basics of dimensioning of mechatronical constructional elements � Substance-bonding, form-fit, and force-fit connecting elements � Essential mechatronical constructional elements as axes/ shafts, bearings/ guides, springs, or gearings � Introduction into the application of a 3D-DAD-system � Self-dependent work on design exercises using the acquired knowledges Reading List: � Schönherr, E.: Konstruktionstechnik-Arbeitsblätter (own script) � Schönherr, E.: Arbeitsblätter Einführung in ein 3D-CAD-System (own script) � Krause, W.: Konstruktionselemente der Feinmechanik, actual edition, Carl Hanser Verlag München Wien � Klein, M.: Einführung in die DIN-Normen, B.G. Teubner Stuttgart, Beuth Verlag Berlin Workload: It is expected that the average student will require 180 hours of study to acquire the necessary knowledge and abilities. These hours can be divided as follows: 68 hours attendance of lectures and practical <strong>course</strong>s 40 hours regular study of the syllabus 46 hours preparation of exercises and private study 26 hours exam preparation This is worth 6 credits.
Page 1 and 2: Module descriptions Bachelor degree
Page 3 and 4: 1a Engineering Mathematics 1 Weekly
Page 5 and 6: 2a Informatics 1 Weekly hours: 4 Cr
Page 7 and 8: 3 Physics Weekly hours: 6 Credits:
Page 9: 5 Electrical Engineering 1+2 Weekly
Page 13 and 14: 9 Material Engineering * Weekly hou
Page 15 and 16: 11 Electrical Metrology Weekly hour
Page 17 and 18: 13 Microcomputers * Weekly Hours: 4
Page 19 and 20: 15 Electronic Components / Electron
Page 21 and 22: 16 Electronic Packaging Technology*
Page 23 and 24: 17b Internship Seminar Weekly Hours
Page 25 and 26: 17d Business Administration Weekly
Page 27 and 28: 19 Feedback Control Systems Weekly
Page 29 and 30: 21 Project 21a Project work Weekly
Page 31 and 32: Bachelor Mechatronics / Precision E
Page 41: Bachelor Mechatronics / Precision E

Module descriptions Bachelor degree course - Elektrotechnik ...

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