Lectures related to Transmission lines: Incremental Models and Terminated Lines

Transmission Line Theory: Wave Propagation

Explores transmission line theory, telegrapher's equations, and frequency-domain solutions for lossless and lossy lines.

Transmission Line Theory: Frequency Solutions

Explores frequency solutions for transmission lines, including voltage reflection coefficients and the Blumer index.

Transmission Lines: Solutions and Equations

Explores time-domain and frequency-domain solutions for transmission lines, including the Bergeron Method and input impedance.

Telegrapher's Equations: Solutions and Examples

Explores time-domain solutions for lossless lines and examples of wave propagation behavior.

Transmission Lines: Arbitrary Terminations

Explores the effects of complex impedance on reflected waves and distribution of quantities.

Transmission Lines: Incremental Model

Covers the incremental model for transmission lines, including Kirchhoff's laws and VSWR calculations.

Short-Circuited or Open Lines

Explores short-circuited and open transmission lines, analyzing impedance conditions and reactive behaviors.

Impedance Transformation

Covers the transformation of impedance in transmission lines and determining unknown impedances from measurements.

Transmission Lines: Impedance Matching and Transformers

Explores terminated transmission lines, impedance matching, transformers, and power transfer techniques.

Transmission Lines: Series Connection

Covers the theory and example of connecting two transmission lines in series.

Transmission Lines II: Terminated Lines and Impedance Matching

Covers the analysis of terminated transmission lines and impedance matching techniques for maximum power transfer.

Reflection at Discontinuities: Transmission Line Terminations

Covers the reflection coefficient of loads in transmission lines and the generation of reflected voltages and currents.

Standing Wave Ratio Report

Explores standing wave ratio, load impedance, reflection coefficient, and wave propagation analysis.

Transmission Lines: Basic Equations (C11-C14)

Covers the mathematical theory of transmission lines, focusing on basic equations and characteristic impedance.

Transmission Lines Parameters: Coaxial, Two-Wire, Plate (C31)

Explains how transmission line parameters change with different mediums and materials, providing formulas and examples for practical applications.

Transmission Lines: Frequency Domain Solutions

Covers the derivation of transmission line equations and analysis of lossless lines in the frequency domain.

Reflectometry in Time Domain

Delves into reflectometry in the time domain, showcasing practical load characterization examples and common temporal signatures.

Multiconductor Transmission Lines

Explores solutions and examples for multiconductor transmission lines, covering line parameters, wave propagation, inductance, capacitance matrices, and modal wave equations.

Understanding the Smith Chart

Covers the Smith Chart, a graphical tool for solving transmission line problems and impedance matching.

Microstrip Line: Characteristics and Modes

Covers the analysis and synthesis of microstrip lines, discussing effective permittivity, characteristic impedance, attenuation, and dispersion.