Basics of Electric Circuits 2

Inductor, Capacitor, Initial Conditions, Step Response of RL, RC and RLC Circuits, Sinusoidal Steady State Response

In this course one can learn voltage,current, power and energy in inductors and capacitors, series-parallel combination of Inductors and capacitors, voltage and current divider rules, initial conditions in circuits, transient and steady state response of first order RL or RC circuits for DC excitation, transient and steady state response of second order RLC circuits for dc excitation, sinusoidal steady state response, introduction of Laplace transform and solving circuits using Laplace transform.

What you’ll learn

  • inductor, capacitor, first order RL and RC circuits, second order RLC circuits, transient and steady state response, solving circuits using Laplace transform.

Course Content

  • Introduction –> 4 lectures • 25min.
  • Capacitor –> 4 lectures • 30min.
  • Series and Parallel Combination of Inductors –> 2 lectures • 14min.
  • Series and Parallel Combination of Capacitors –> 2 lectures • 14min.
  • Initial Conditions of Resistor, Capacitors and Inductors –> 10 lectures • 1hr 11min.
  • Response of First Order RC or RL Circuit for DC Excitation –> 2 lectures • 28min.

Basics of Electric Circuits 2

Requirements

  • student should know KVL and KCL, ohms Law, nodal analysis and mesh analysis.

In this course one can learn voltage,current, power and energy in inductors and capacitors, series-parallel combination of Inductors and capacitors, voltage and current divider rules, initial conditions in circuits, transient and steady state response of first order RL or RC circuits for DC excitation, transient and steady state response of second order RLC circuits for dc excitation, sinusoidal steady state response, introduction of Laplace transform and solving circuits using Laplace transform.

All the topics have number of solved examples to have better understanding of the subject.

Get Tutorial