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Description
Applied Engineering Electromagnetics. Instructor: Dr. Pradeep Kumar K, Department of Electrical Engineering, IIT Kanpur. Applied electromagnetics for engineers is designed to be an application oriented course while covering all the theoretical concepts of modern electromagnetics.
It begins by an in-depth study of transmission lines which play an important role in high-speed digital design and signal integrity of PCBs. After a brief review of necessary mathematics (coordinate systems, vector analysis, and vector fields), the course covers analytical and numerical solution of Laplace's and Poisson's equations, quasi-static analysis of capacitors and skin effect, inductance calculations, and Maxwell equations. Wave propagation in free-space, ferrites, and periodic media are covered along with waveguides (rectangular, planar dielectric, and optical fibers) and antennas. The course includes a balance between theory, programming, and applications. Several case studies will be discussed. (from nptel.ac.in)
Course Curriculum
- Lecture 01 – Introduction to Applied Electromagnetics Unlimited
- Lecture 02 – Introduction to Transmission Lines Unlimited
- Lecture 03 – Sinusoidal Waves on Transmission Lines Unlimited
- Lecture 04 – Terminating Transmission Lines; Reflection and Transmission Coefficient Unlimited
- Lecture 05 – Circuit Parameters of a Transmission Line Unlimited
- Lecture 06 – Lossy Transmission Lines and Primary Constants Unlimited
- Lecture 07 – When to Apply Transmission Line Theory? Unlimited
- Lecture 08 – Standing Waves on Transmission Lines Unlimited
- Lecture 09 – Lumped Equivalent Circuits of Transmission Lines Unlimited
- Lecture 10 – Impedance Transformation and Power Flow on Transmission Lines Unlimited
- Lecture 11 – Graphical Aid: Smith Chart Derivation Unlimited
- Lecture 12 – Smith Chart Applications Unlimited
- Lecture 13 – Further Applications of Smith Chart Unlimited
- Lecture 14 – Further Applications of Smith Chart (cont.) Unlimited
- Lecture 15 – Impedance Matching Techniques I Unlimited
- Lecture 16 – Impedance Matching Techniques II Unlimited
- Lecture 17 – Impedance Matching Techniques III Unlimited
- Lecture 18 – Transmission Lines in Time Domain: Lattice Diagrams Unlimited
- Lecture 19 – Further Examples of Use of Lattice Diagrams Unlimited
- Lecture 20 – High Speed Digital Signal Propagation on Transmission Lines Unlimited
- Lecture 21 – Transient Analysis with Reactive Termination and Time Domain Reflectometry Unlimited
- Lecture 22 – Fault Detection using Time Domain Reflectometry Unlimited
- Lecture 23 – Why Electromagnetics? Unlimited
- Lecture 24 – Rectangular Coordinate Systems Unlimited
- Lecture 25 – Cylindrical Coordinate Systems Unlimited
- Lecture 26 – Review of Vector Fields and Gradient Unlimited
- Lecture 27 – Divergence, Curl, and Laplacian Operations Unlimited
- Lecture 28 – Towards Maxwell’s Equations Unlimited
- Lecture 29 – Towards Maxwell’s Equations (cont.) Unlimited
- Lecture 30 – Faraday’s Law Unlimited
- Lecture 31 – Completing Maxwell’s Equations and Boundary Conditions Unlimited
- Lecture 32 – Boundary Conditions for Electromagnetic Fields Unlimited
- Lecture 33 – Electrostatics: Laplace and Poisson’s Equations Unlimited
- Lecture 34 – Electrostatics: Solving Laplace’s Equation in 1D Unlimited
- Lecture 35 – Electrostatics: Solving Laplace’s Equation in 2D Unlimited
- Lecture 36 – Electrostatics: Finite Difference Method for Solving Laplace’s Equation Unlimited
- Lecture 37 – Magnetostatic Fields: Biot-Savart Law Unlimited
- Lecture 38 – Magnetostatic Fields: Calculation of Magnetic Fields Unlimited
- Lecture 39 – Inductance Calculations Unlimited
- Lecture 40 – From Maxwell’s Equations to Uniform Plane Waves Unlimited
- Lecture 41 – Plane Wave Propagation in Lossless Dielectric Media Unlimited
- Lecture 42 – Polarization of Plane Waves Unlimited
- Lecture 43 – Can an Ideal Capacitor Exist? Unlimited
- Lecture 44 – Skin Effect in Conductors Unlimited
- Lecture 45 – Skin Effect in Round Wires Unlimited
- Lecture 46 – Finite Difference Method Unlimited
- Lecture 47 – Reflection of Uniform Plane Waves Unlimited
- Lecture 48 – Application: Reflection from Multiple Media and Anti-reflection Coating Unlimited
- Lecture 49 – Oblique Incidence of Plane Waves Unlimited
- Lecture 50 – Total Internal Reflection Unlimited
- Lecture 51 – Application: Matrix Analysis of Reflection from Multiple Boundaries Unlimited
- Lecture 52 – Application: Fabry-Perot Cavity and Multi-Layer Films Unlimited
- Lecture 53 – Introduction to Waveguides Unlimited
- Lecture 54 – Rectangular Waveguides Unlimited
- Lecture 55 – Attenuation and Dispersion in Rectangular Waveguides Unlimited
- Lecture 56 – Planar Optical Waveguides Unlimited
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