inf207 - Electrical Engineering (Complete module description)

# inf207 - Electrical Engineering (Complete module description)

 Module label Electrical Engineering Modulkürzel inf207 Credit points 6.0 KP Workload 180 h Institute directory Department of Computing Science Verwendbarkeit des Moduls Bachelor's Programme Computing Science (Bachelor) > Akzentsetzungsbereich - Wahlbereich Informatik Dual-Subject Bachelor's Programme Computing Science (Bachelor) > Wahlpflicht Technische Informatik (30 KP) Master of Education Programme (Gymnasium) Computing Science (Master of Education) > Wahlpflichtmodule (Technische Informatik) Master of Education Programme (Hauptschule and Realschule) Computing Science (Master of Education) > Mastermodule Master's Programme Computing Science (Master) > Interdisziplinäre Module Zuständige Personen 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 Literaturempfehlungen 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 Teaching/Learning method V+Ü Previous knowledge Module Analysis II or Numerics
Form of instruction Comment SWS Frequency Workload of compulsory attendance
Lecture 3 SoSe 42
Exercises 1 SoSe 14
Präsenzzeit Modul insgesamt 56 h
Examination Prüfungszeiten Type of examination
Final exam of module
At the End of the Semester
Hands-on exercises / written exam or oral exam