inf207 - Electrical Engineering (Complete module description)
| Module label |
Electrical Engineering |
| Module abbreviation |
inf207 |
| Credit points |
6.0 KP |
| Workload |
180 h
|
| Institute directory |
Department of Computing Science |
| Applicability of the module |
-
Bachelor's Programme Computing Science (Bachelor) > Akzentsetzungsbereich - Wahlbereich Informatik
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Dual-Subject Bachelor's Programme Computing Science (Bachelor) > Wahlpflicht Technische Informatik (30 KP)
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Master of Education Programme (Gymnasium) Computing Science (Master of Education) > Wahlpflichtmodule (Technische Informatik)
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Master of Education Programme (Hauptschule and Realschule) Computing Science (Master of Education) > Mastermodule
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Master's Programme Computing Science (Master) > Interdisziplinäre Module
|
| Responsible persons |
-
Hein, Andreas (module responsibility)
-
Lehrenden, Die im Modul (Prüfungsberechtigt)
|
| Prerequisites |
Module Analysis II or Numerics |
| Skills to be acquired in this module |
Professional competence:
The students:
- analyse linear electrical networks (direct current and alternating current)
- name basic concepts to calculate and to use electrical and magnetic fields
- list the characteristics of simple electrical elements (two terminal networks)
- calculate the parameters of simple electrical networks/wirings
- apply computer based analysing tools
- design and implement simple networks/wirings
Methodological competence:
The students:
- transfer calculation methods onto complex dynamic systems
- implement electrical system models
Social competence:
The students:
- present solutions for specific questions
Self-competence:
The students:
- reflect their solutions by using methods learned in this course
|
| Module contents |
- Basic concepts (electric dimensions and units)
- Network elements
- Calculation of linear direct current networks (Ohms law, Kirchhoff's circuit law, superposition principle)
- Characteristics, calculations and representations of electric and magnetic fields
- Construction elements (capacitor and coil)
- Extensions of periodical dimensions dependent on time, pointer representation, calculations with complex root-mean-square value pointers
|
| Recommended reading |
essential:
- slides
- Albach: Grundlagen der Elektrotechnik 1 und 2. Pearson Studium, 2004.
recommended:
- Hagmann, G.: Grundlagen der Elektrotechnik. AULA-Verlag, 2002.
- Hagmann, G.: Aufgabensammlung zu den Grundlagen der Elektrotechnik. AULA-Verlag, 2002.
|
| Links |
|
| Language of instruction |
German |
| Duration (semesters) |
1 Semester |
| Module frequency |
annual |
| Module capacity |
unlimited |
| Module level |
|
| Type of module |
|
| Teaching/Learning method |
1VL + 1Ü |
| Previous knowledge |
Modul Analysis II oder Numerik |
| Type of course |
Comment |
SWS |
Frequency |
Workload of compulsory attendance |
|
Lecture |
|
3 |
SoSe |
42 |
|
Exercises |
|
1 |
SoSe |
14 |
| Total module attendance time |
56 h |
| Examination |
Examination times |
Type of examination |
| Final exam of module |
At the End of the Semester |
Hands-on exercises / written exam or oral exam |
