Introduction to Electromagnetic Engineering
Electromagnetic Engineering
6 Modules
Basic Laws of Electromagnetic
9 Lessons
Qualitative interpretation of gradient divergence and curl
Coulombs Law and Electric Field Intensity
Electric Flux Density, Gauss Law and Divergence
Relation between electric field & potential
Current and Current Density
Poisson Equation and Laplace Equation
Biot Savart law
Ampere's circuital law
Boundary Conditions
Maxwell's Equations
6 Lessons
Faraday's law
Concept of transformer and motional electromotive force
Displacement current & Ampere Maxwell's law
Concept of time varying potential
Lorentz gauge conditions
Concept of phasors and time harmonic
Electromagnetic Waves
7 Lessons
Derivation of electromagnetic wave equation
General representation of em waves
Wave Propogation in Free Space
Lossy and Loseless Dielectrics
Skin effect
Wave polarization
Poynting Theorem
Transmission Lines
3 Lessons
Transmission Line Parameters
Smith Chart for VSWR, Reflection Coefficient and Input Impedance
Application of Microstrip Lines
Introduction to Antennas
8 Lessons
Introduction to Antenna and its Radiation Mechanism
Antenna Radiating Patterns
Basics of Radiation pattern (HPBW, FNBW)
FRIIS Transmission
Antenna Field Zones, Parameters and Wave Propagation
Two Isotropic Source Array
Horn Antenna
Reflector Antenna
Introduction to EMI/EMC
4 Lessons
EMC and EMI
EMI, EMC Introduction pt 1
EMI, EMC Introduction pt 2
Classes,Methods and Generation of EMI and EMC