Lehrinhalte
[list]
[*]Direct current circuits: Ohms law, Kirchhoffs theorems
[*]Alternating current circuits: capacitance, inductance, impedance, active and reactive power, phasors
[*]Electro-magnetic Fields: source and vortex fields, Coulombs law, electrical displacement density, Gauss theorem, influence, Maxwells laws in integral form
[*]Elements of power engineering: three phase systems, transformators, electrical machines, power electronics (DC/DC converter and inverter)
[*]Introduction into current research topics in power engineering
[/list]
Literatur
A lecture script and slides are provided via Moodle
Voraussetzungen
Basic mathematics: working with complex numbers, matrices / vectors / systems of linear equations, ordinary differential equations
Online-Angebote
moodle
Additional Information
[url]http://www.hst.tu-darmstadt.de/index.php?id=246[/url]
[list]
[*]Direct current circuits: Ohms law, Kirchhoffs theorems
[*]Alternating current circuits: capacitance, inductance, impedance, active and reactive power, phasors
[*]Electro-magnetic Fields: source and vortex fields, Coulombs law, electrical displacement density, Gauss theorem, influence, Maxwells laws in integral form
[*]Elements of power engineering: three phase systems, transformators, electrical machines, power electronics (DC/DC converter and inverter)
[*]Introduction into current research topics in power engineering
[/list]
Literatur
A lecture script and slides are provided via Moodle
Voraussetzungen
Basic mathematics: working with complex numbers, matrices / vectors / systems of linear equations, ordinary differential equations
Online-Angebote
moodle
Additional Information
[url]http://www.hst.tu-darmstadt.de/index.php?id=246[/url]
- Lehrende: Gerd Jürgen Griepentrog
- Lehrende: Florian Steinke
Semester: Inverno 2020/21