- Switching operations in direct current networks (approx. 3 blocks) - Charging/discharging an RC element - Switching coils - Magnetically coupled coils - Alternating current networks (approx. 5 blocks) - Representation of sinusoidal quantities - Example: RC element - Capacitor with alternating voltage - Coil with alternating voltage - Complex calculation of networks with R, L, C (“recipe” for procedure) - Graphical solution of networks with R, L, C (RC element, RL element) - Power (effective value, power factor, active/apparent/reactive power, loss factor, loss angle) - Components R, L, C with alternating current - Reactive power compensation - Oscillating circuits - Semiconductor components (approx. 4 blocks) - Fundamentals (conductors, semiconductors, insulators, doping, band model, intrinsic conductivity) - Diodes (real characteristic curve, operating point, equivalent circuit) - Zener diode - LED - Protective circuit with diodes - Rectifier circuits (single-phase rectifier, center tap circuit, bridge rectifier, smoothing capacitor) - Bipolar transistor (structure, designations, characteristic curve, characteristic values) - Transistor as a switch (circuit, switching times and behavior) - MOSFET (structure, comparison with bipolar transistor) - Optional: Transistor as an amplifier Old lecture notes: \\ Electrics \\ [[electrical_engineering_and_electronics_1:the_electrostatic_field|1 The electrostatic Field]] \\ [[electrical_engineering_and_electronics_1:the_stationary_electric_flow|2 The stationary electric Flow]] \\ \\ Magnetics \\ [[electrical_engineering_and_electronics_1:the_magnetostatic_field|3 The magnetostatic Field]] \\ [[electrical_engineering_and_electronics_1:the_time-dependent_magnetic_field|4 time-dept. magnetic Field]] \\ [[electrical_engineering_and_electronics_1:magnetic_circuits|5 Magnetic Circuits]] \\ Electromagnetic Applic. \\ [[Inductances in Circuits |6 Inductances in Circuits]] \\ [[polyphase_networks |7 Polyphase Networks]] \\ [[transformer |8 The Transformer]] \\ \\ [[old exams]] \\ \\ \\ \\ \\ \\ \\ \\ \\ \\