Lecture 1 - Review of Transmission Line Phenomena
Lecture 2 - Reflections on Transmission Lines
Lecture 3 - Impedance Transformation and its Effects on Transmission Lines
Lecture 4 - Impedance Transformation and Standing Waves on a Transmission Line
Lecture 5 - Introductory Meeting
Lecture 6 - Foundations of the Smith Chart
Lecture 7 - Transmission Lines in Practice
Lecture 8 - Analysis of Transmission Lines in Practice
Lecture 9 - Transient Behavious of Transmission Lines
Lecture 10 - Transient Behavious of Transmission Lines (Continued...)
Lecture 11 - Introduction to Impedance Matching and Quarter Wave Transformer
Lecture 12 - Frequency Reponse of a Quarter Wave Transformer
Lecture 13 - Transient Analysis, and the Theory of Small Reflections
Lecture 14 - Increasing the Bandwidth of Quarter Wave Transformers
Lecture 15 - The Equal Gamma Multi Section Transformer
Lecture 16 - The Butterworth or Binomial Multi Section Transformer
Lecture 17 - Analyzing the Butterworth Multi Section Transformer
Lecture 18 - A Recap of RLC Circuits for Microwave Applications
Lecture 19 - Impedance Matching using RLC Network Transformation
Lecture 20 - Techniques for Matching Complex Load Impedances
Lecture 21 - Matching Complex Load Impedances using L Match Networks
Lecture 22 - A General Introduction to Microwave Networks
Lecture 23 - Introduction to Scattering Parameters in Microwave Networks
Lecture 24 - Properties of S Parameters
Lecture 25 - Relationship between S Parameters and Transmission Parameters
Lecture 26 - An Introduction to Lumped Element Microwave Filters
Lecture 27 - Design of Maximally Flat Lowpass Filters using Lumped Elements
Lecture 28 - Transformation of Filters for Impedance and Frequency Response
Lecture 29 - Transformation of Lowpass to Highpass, Bandpass, Bandstop Filters
Lecture 30 - Realizing Lumped Element Filters using Transmission Lines
Lecture 31 - Realizing Lumped Element Filters using Transmission Lines (Continued...)
Lecture 32 - Introduction to Three Port Microwave Networks
Lecture 33 - The Tee Junction Divider
Lecture 34 - The Concept of Even and Odd Mode Analysis
Lecture 35 - The Wilkinson Power Divider
Lecture 36 - Planar Microwave Circulators
Lecture 37 - Introduction to Four Port Networks : Branch Line Hybrid Couplers
Lecture 38 - Even and Odd Mode Analysis of Branch Line Hybrid Couplers
Lecture 39 - Calculating the Impedances in a Branch Line Hybrid Coupler
Lecture 40 - Branch Line Hybrid Couplers with More than Two Branches
Lecture 41 - The Rat Race Hybrid Coupler
Lecture 42 - Realization of Hybrid Couplers using Lumped Elements
Lecture 43 - Electromagnetically Coupled Pair of Transmission Lines
Lecture 44 - Coupled-Line Directional Couplers
Lecture 45 - Matching and Isolation in a Coupled Line Directional Coupler
Lecture 46 - Transmission Coefficient and Coupling in Coupled Line Couplers
Lecture 47 - Increasing the Bandwidth of Coupled Line Directional Couplers
Lecture 48 - Introduction to Semiconductor Devices for Microwave Applications
Lecture 49 - Diodes for Switching Applications for Microwaves
Lecture 50 - Diodes for Detection and Rectification at Microwave Frequencies
Lecture 51 - Diodes for Tuning Operations at Microwave Frequencies
Lecture 52 - Introduction to Microwave Power Measurement Techniques
Lecture 53 - Microwave Signal Spectrum Measurement - The Spectrum Analyzer
Lecture 54 - Measurement of S-Parameters using Wave Separation Technique
Lecture 55 - Measurement of S-Parameters using Wave Separation Technique (Continued...)
Lecture 56 - Measurement using Interference Technique - The Six Port Reflectometer
Lecture 57 - Understanding the Solutions forthe Six Port Reflectometer
Lecture 58 - Extending the Six PortReflectometer to Two Port Measurements
Lecture 59 - Introduction to Microwave Simulation Software
Lecture 60 - Simulated Behaviour of Lumped Element Microwave Filters
Lecture 61 - Simulated Behaviour of Hybrids and Coupled Line Directional Couplers
