• In addition to sources and resistors, studies capacitors and inductors connected in various configurations

• Examines the relationships between circuit elements not only under direct current (DC) voltage and current sources, but also under alternating current (AC) voltage and current sources

In Electrical Circuits II, when a circuit contains capacitors, inductors, or both, we distinguish between two operating conditions:

• Steady-state condition, in which all voltage transients in the circuit have settled

• Non–steady-state (transient) sinusoidal condition, where the circuit is analyzed during the charging and discharging of capacitors and inductors

In this condition, our focus is on the time-dependent behavior of the circuit.

To transition to the steady-state condition, we determine the limit of the current or voltage as time approaches infinity.

In general, Electrical Circuits II focuses on more advanced topics, such as:

• Circuit analysis using multi-port networks

• The use of frequency response

• Frequency response of filters

• Frequency response of amplifiers and other systems

Indicatively, some of the key subject areas taught in this course include:

• DC current and voltage sources

• AC current and voltage sources

• Inductors, capacitors, and resistors

• Impedance

• Impedance synthesis

• Apparent power

• Reactive power

• Real (active) power

• Power triangle

• Power factor

• All the theorems covered in Electrical Circuits I

• Steady-state analysis

• Transient analysis

• Frequency response

• Voltage response

• Current response

• Coupled electrical circuits with alternating current

• Three-phase networks

• Power in three-phase circuits

                                                                                    Do you have questions ?