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Veranstaltungen
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Microwave Lab
| Art |
Labor |
| Nr. |
EMI412 |
| SWS |
1.0 |
| Lerninhalt |
- Network Analysis of passive microwave elements
- Rectangular Waveguide in microwave communications
- Circuit Simulations with Microwave Office
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| Literatur |
- Pozar, David: Microwave Engineering, John Wiley & Sons, 2011.
- Wandell, Brian C.: Transmission Line Handbook, Artech House, 1991.
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Guided Wave Simulation Lab
| Art |
Labor |
| Nr. |
EMI413 |
| SWS |
1.0 |
| Lerninhalt |
Field numerical simulations of guided wave structures using FDFD (finite difference frequency domain) method E.g.
- Rectangular waveguide filled with a scattering obstacle
- Transmission line discontinuity: interconnection of a rectangular waveguide and a microstrip line |
| Literatur |
Literature and simulation experiment descriptions will be given at the beginning of the lab work |
Guided Wave Theory
| Art |
Vorlesung |
| Nr. |
EMI411 |
| SWS |
4.0 |
| Lerninhalt |
- Maxwell’s equations: general forms, cause-effect-relations, continuity relation, time harmonic field
- Wave concept: uniform plane waves, propagation and energy flux, skin effect
- Boundary conditions
- Transmission lines:
- Modes: concept and classification, orthogonality
- Properties of rectangular waveguides, other waveguide types and coaxial lines
- Circuit theory for waveguide systems:
- Scattering matrix formulation
- Equivalent circuits
- Examples of passive devices
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| Literatur |
- Balanis, C. A., Advanced Engineering Electromagnetics, John Wiley&Sons, New York, 2012.
- Ulaby, F. T., Fundamentals of Applied Electromagnetics, Pearson, 2014.
- Fleisch, D., A Student's Guide to Maxwell's Equations, Cambridge University Press, 2008.
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