Prof. A. Hopf

The students are familiar using complex phasors and master the basic methods to analyze linear single-phase and three-phase AC circuits. They get to know and learn how to apply the fundamental laws regarding magnetic fields.

On completion of this module, the students will:

• have profound knowledge on the vocabulary and concepts of single-phase and three-phase AC steady-state analysis

• know the terminology considering magnetic fields

• compute current, voltage and power distributions in linear single-phase and three-phase AC systems at steady-state

• analyze first and second order circuits AC and DC circuits

• compute and draw frequency response locus

• know design, fundamental functionality, and equivalent circuits for a single-phase transformer.

• compute simple static and stationary magnetic fields

• apply Ampère’s circuital law and Faraday’s law of induction

• compute magnetic circuits

• compute inductances

• compute forces in magnetic fields

• AC steady-state analysis

• Three-phase systems

• First and second order transient circuits

• Frequency response locus

• Transformer

• Magnetic fields:

• Basic concepts (magnetic field strength, magnetic flux density, magnetic flux, magnetic voltage)

• Ampère’s circuital law, Biot-Savart law

• Faraday’s law of induction, Lenz’s rule

• Ferromagnetism

• Inductance and coil

• Magnetic circuits

• Energy

• Magnetic forces