Course Material for EE1101: Circuits and Network Analysis (Fall 2025)

General overview of Maxwell's equations

Analysis and Design

Circuit domain essentials: Voltage and Current

Reference and Polarity

Circuit domain essentials: Power and Energy

Two Terminal Elements in DC Circuits

Resistance

KCL and KVL

Voltage and Current Divider Circuits

Port and its characteristics

Introduction to Node Analysis

Node Analysis for circuits with current sources and passive elements

Use of Matrices in Node Analysis

Node Analysis for circuits with voltage sources

Introduction to Mesh Analysis

Mesh Analysis for circuits with voltage sources and passive elements

Mesh Analysis for circuits with Current sources

Concept of Supermesh

Equivalent Circuits

Source Transformation

Dependent Sources

Three-terminal Circuit Elements

Typical operating modes of three-terminal elements

Circuits with Three-terminal Elements

Modeling of Bipolar Junction Transistor (BJT) using Dependent Source

Modeling of Metal Oxide Semiconductor Field E!ect Transistor (MOSFET) using Dependent Source

Modeling of Operational Amplifier (Op-Amp) using Dependent Source

Virtual Short Principle

Unit Step and Impulse Signals

Periodic Signals

Average value of a Periodic Signal

RMS value of a periodic Signal

Sinusoidal Signal and its Properties

Phasor Representation

Instantaneous, Active and Reactive Power

Complex Power and Power Factor

Validity of KVL for AC Circuits

Introduction to Inductors

Inductors from a circuit point of view

Response of inductors to various signals

Power Associated with an inductor

Energy Associated with inductors

Capacitors from a circuit point of view

Power and Energy Associated with Capacitors

Solution of First-order Differential Equation

Step response of an RL circuit

Quantifying Transient Response

Zero Input and Zero state Response

Sinusoidal Response of First Order Circuits

Role of Phasors and Impedances

Sinusoidal Response using Complex Exponentials

Introduction to Second-order Circuits

Introduction to Second-Order Homogeneous Differential Equations

Solution of Second-Order Homogeneous Differential Equations

Forced Response of Second-order Circuits

Method of Undetermined Coefficients

Sinusoidal Forcing Functions

Node Analysis for AC Circuits

Mesh Analysis for AC Circuits

Linearity and Superposition

Thevenin's Theorem

Thevenin's Theorem

Norton's Theorem

Maximum Power Transfer Theorem

Norton's Theorem

Introduction to Two-Port Networks

Admittance and Impedance Parameters

Admittance and Impedance Parameters

Hybrid and Inverse Hybrid Parameters

Examples of Two-port Networks

Transmission Parameters

Series and Cascade Connection of Two-port networks

Introduction to Resonance

Resonance in Series RLC circuit

Resonance in Series RLC circuit

Quality factor and Bandwidth

Introduction to Magnetic Circuit Analysis

Basic framework

Magnetic circuits with single winding