Course Contents
[b]The lecture[/b] (3 SWS) introduces electrical engineering to all non-EE students:
[b]Basics[/b]: electrical charge, electrical current, voltage, electrical work and power
[b]Direct current[/b]: Ohms Law, terms in DC networks, Kirchhoff`s Laws, linear networks, ideal and real sources, superposition, Nortons and Thevenins theorems
[b]Electrical field[/b]: capacitors, electrostatic forces, capacitors in linear networks
[b]Magnetic field[/b]: Lorentz force, Ohms Law of the magnetic network, Amperes circuital law, ferromagnetism, electromagnetic induction, self inductance, inductors in linear networks, (electro-)magnetic forces
[b]Switching processes[/b]: differential equations, switching-on and off of RC- and LR-circuits
[b]Alternating current[/b]: voltage generation, definition of average and rms value, phasor calculus, Kirchhoffs Laws for complex networks, impedances, apparent power, active power and reactive power, filter networks, three-phase current, transformers
[b]Electronics[/b]: principles of semiconduction, semiconductors, integrated circuits
Literature
The Online-Material video recording of the lectures, exercise materials, online tests, animations and videos, the latest information and an official discussion board can be found on the official Moodle-platform of the Technische Universität Darmstadt.
The lecture notes Introduction to Electrical Engineering are for sale at City Copies, Holzstrasse 5.
Additional literature:
[list]
[*]Hagmann, Gert: Grundlagen der Elektrotechnik. AULA-Verl., 2006
[*]Hagmann, Gert: Aufgabensammlung zu den Grundlagen der Elektrotechnik. AULA-Ver., 2006
[*]Frohne, Heinrich; Moeller, Franz: Grundlagen der Elektrotechnik. Teubner, 2005
[/list]
Preconditions
Mathematics I, School knowledge of physics
[b]The lecture[/b] (3 SWS) introduces electrical engineering to all non-EE students:
[b]Basics[/b]: electrical charge, electrical current, voltage, electrical work and power
[b]Direct current[/b]: Ohms Law, terms in DC networks, Kirchhoff`s Laws, linear networks, ideal and real sources, superposition, Nortons and Thevenins theorems
[b]Electrical field[/b]: capacitors, electrostatic forces, capacitors in linear networks
[b]Magnetic field[/b]: Lorentz force, Ohms Law of the magnetic network, Amperes circuital law, ferromagnetism, electromagnetic induction, self inductance, inductors in linear networks, (electro-)magnetic forces
[b]Switching processes[/b]: differential equations, switching-on and off of RC- and LR-circuits
[b]Alternating current[/b]: voltage generation, definition of average and rms value, phasor calculus, Kirchhoffs Laws for complex networks, impedances, apparent power, active power and reactive power, filter networks, three-phase current, transformers
[b]Electronics[/b]: principles of semiconduction, semiconductors, integrated circuits
Literature
The Online-Material video recording of the lectures, exercise materials, online tests, animations and videos, the latest information and an official discussion board can be found on the official Moodle-platform of the Technische Universität Darmstadt.
The lecture notes Introduction to Electrical Engineering are for sale at City Copies, Holzstrasse 5.
Additional literature:
[list]
[*]Hagmann, Gert: Grundlagen der Elektrotechnik. AULA-Verl., 2006
[*]Hagmann, Gert: Aufgabensammlung zu den Grundlagen der Elektrotechnik. AULA-Ver., 2006
[*]Frohne, Heinrich; Moeller, Franz: Grundlagen der Elektrotechnik. Teubner, 2005
[/list]
Preconditions
Mathematics I, School knowledge of physics
- Lehrende: KupnikMario
- Lehrende: WismathSonja
Semester: ST 2022