Lectures related to Multiconductor Transmission Lines

Transmission Line Networks and Multiconductor Lines

Explores transmission line networks and multiconductor lines, discussing wave propagation and complex network examples.

Telegrapher's Equations: Solutions and Examples

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

Transmission Line Theory: Frequency Solutions

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

Transmission Line Theory: Wave Propagation

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

Transmission Line Networks: Analysis and Wave Propagation

Covers the analysis of transmission line networks and wave propagation.

Transmission Lines: Solutions and Equations

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

Transmission Line Equations: Derivation and Losses

Explores the derivation of transmission line equations and the impact of losses.

Transmission Lines Theory

Covers the theory of transmission lines, discussing different types and how to model them with capacitance and inductance.

Transmission Lines: Theory and Assumptions

Covers the theory and assumptions behind transmission lines, including TEM mode of propagation and antenna mode currents.

Introduction to Acoustics

Covers the science of sound, wave propagation, acoustic properties, and sound wave characteristics.

Coupling of Waves in Reflectors

Covers the coupling of waves in periodic structures, focusing on the reflection coefficient for one period and the limitations of the Coupling of Modes approach.

Transmission Lines: Solutions and Reflections

Explores solutions to transmission line problems and the impact of discontinuities in digital circuits.

Lightning-induced Voltages: FDTD Dispersion

Covers lightning-induced voltages, FDTD dispersion, and surge arrester applications.

Plasma Waves: Properties & Frequencies

Explores the properties of plasma waves, focusing on dispersion, cut-off, resonance frequencies, and wave modes.

Wave Equation: Mechanical Systems

Explores the wave equation for mechanical systems, covering different wave velocities and solutions.

Transmission Lines Theory: Maxwell Equations and Wave Connection

Explores the theory of transmission lines and their connection to wave propagation.

Plasma Waves: Characteristics and Magnetization

Explores plasma wave characteristics in magnetized plasma and discusses Doppler shifted resonances.

Propagation in Conductors

Covers the propagation of current density in conductors and solutions for the electric field.

Waves in Fluids: Basic Properties and Equations

Covers the properties of waves in fluids, focusing on surface waves and their mathematical representation.

Electromagnetic Waves: Theory & Applications

Explores electromagnetic waves, Maxwell's equations, circuits, and wave propagation through different media.