Lectures related to Two Port Circuits: Phase Shifters and Attenuators

Balancing and Shielding in Electronic Circuits

Explores non-ideal components, filters, impedance parameters, and shielding methods in electronic circuits.

Quadripoles and Frequency Response

Covers quadripoles, impedance matrices, reciprocity, and frequency response in circuits.

Noise in Two-port Networks

Covers the analysis of noise in two-port networks, Y-parameters, substrate resistance extraction, and the noise factor.

Circuit Characterization: Microwave Components and Impedance Matrix

Explores microwave circuit characterization, impedance matrices, and transmission line T circuits.

Two Port Devices: Part I

Introduces two-port circuits, phase shifters, and attenuators with examples.

Step Response of RLC Circuits and Quadrupoles

Analyzes the step response of RLC circuits and introduces the concept of quadrupoles.

Calculation of Short-Circuit Currents

Explores the calculation of short-circuit currents in electrical networks, emphasizing symmetrical systems and nodal impedances.

S-Domain Circuit Analysis: Part 2

Delves into s-domain circuit analysis, covering theorems, analysis methods, and stability concepts.

Harmonic Oscillator: LC Resonator Analysis

Analyzes an LC resonator as a harmonic oscillator, discussing transient behavior, oscillations in charge and current, and the interplay between electrical and magnetic energy.

Three-Port Devices: Lossless, Matched, and Reciprocal

Explores lossless, matched, and reciprocal three-port devices, circulators, dividers, and impedance matching in symmetric and asymmetric excitations.

Network Functions: Analysis and Design

Explores network functions in s-domain circuit analysis, covering stability, poles, responses, and design.

Analog Circuits: Core Network Functions and Dependent Sources

Explores core network functions, inverting amplifiers, s-domain analysis, and circuits with dependent sources.

Impedance Networks

Explores impedance networks, Kirchhoff's laws, and voltage/current dividers in complex circuits.

Power Systems Dynamics: Transient Stability

Explores transient stability in power systems dynamics, covering algebraic equations, generator models, and numerical integration techniques.

Circuit Analysis: Thevenin and Norton Equivalents

Explores Thevenin and Norton equivalents, mesh and nodal analysis, and planar circuits.

Laplace Transforms: Circuit Analysis

Explores Laplace transforms in circuit analysis, emphasizing pole-zero diagrams and s-domain concepts.

Electricity Fundamentals: Inductance and Complex Impedance

Explores the relationship between current and voltage, sinusoidal signals, and impedance in electrical circuits.

Nonlinear Equations: Bisection and Fixed-Point Methods

Explores nonlinear equations, bisection, fixed-point methods, error control, and graphical interpretations of fixed points.

Analysis of LC Circuit and Complex Representation

Covers the analysis of LC circuits and complex numbers in AC circuits.

Two-Port Systems: Parameters and Invariants

Covers the parameters and invariants of two-port systems.