- Degree Bachelor
- Code: EC442
- Credit hrs: 3
- Prequisites: EC341
Wave equation, Uniform plan waves, Wave propagation in free space, perfect dielectric, lossy and good conductors, skin effect, surface impedance. Normal incidence, reflection coefficient and standing wave pattern. Input impedance, Oblique incidence reflection coefficients for horizontal and parallel polarization Brewster angle, types of polarization. Fundamental parameters of antennas,. Linear wire antenna (infinitesimal, small, finite length dipole, and half-wavelength dipole). Ground wave propagation .Troposphere propagation. Ionosphere wave propagation.
B.Sc. Electronics and communication Engineering
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| content serial | Description |
|---|---|
| 1 | Types of transmission lines and their analysis. |
| 2 | Graphical method (Smith Chart). |
| 3 | Applications of Smith Charts to solve transmission line problems. |
| 4 | Single stub matching. |
| 5 | Double stub matching. |
| 6 | Triple stub matching, (ï¬/4) transformers, Baluns delay lines, and pulse forming. |
| 7 | 7th week exam. |
| 8 | Introduction, wave equations for a rectangular wave guide. |
| 9 | Solution of wave equation for TM mode. |
| 10 | TE mode and its boundary conditions. |
| 11 | Power transmitted and dielectric losses. |
| 12 | 12th week exam. |
| 13 | Wall losses in a rectangular wave guide. |
| 14 | Circular Wave guide. |
| 15 | Rectangular cavity resonator & Circular cavity resonator. |
| 16 | Final examination. |
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