- Switching operations in direct current networks \\ (approx. 3 blocks, based on previous lectures on [[electrical_engineering_1:dc_circuit_transients|DC transients]] )
    - Charging/discharging an RC element
    -  Switching coils
    - Magnetically coupled coils \\ \\
  - Alternating current networks \\ (approx. 5 blocks, based on previous lectures on [[electrical_engineering_1:introduction_in_alternating_current_technology|Intro to AC]] and [[electrical_engineering_1:circuits_under_different_frequencies|AC circuits]])
    - 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, based on previous lectures on [[circuit_design:2_diodes|Diodes]] and [[circuit_design:2_transistors|Transistors]] )
    - 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