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Progetto
Campus - Electromagnetic Compatibility
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Titoli
delle videolezioni
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Lez. 1 |
Prof. Giuseppe Vecchi |
Course out-line and general introduction |
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Lez. 2 |
Prof. Piergiorgio Uslenghi |
Maxwell's equations |
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Lez. 3 |
Prof. Piergiorgio Uslenghi |
Electromagnetic Potentials |
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Lez. 4 |
Prof. Piergiorgio Uslenghi |
Superpotentials. Hertzian Dipole. Equivalent Sources. Lorentz Forces |
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Lez. 5 |
Prof. Piergiorgio Uslenghi |
Energy and Power. Boundary Conditions I |
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Lez. 6 |
Prof. Piergiorgio Uslenghi |
Boundary Conditions II |
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Lez. 7 |
Prof. Piergiorgio Uslenghi |
Constitutive Relations |
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Lez. 8 |
Prof. Frederick Mark Tesche |
Introduction to Electromagnetic Compatibility (EMC) |
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Lez. 9 |
Prof. Frederick Mark Tesche |
Introduction to Electromagnetic Compatibility (EMC) |
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Lez. 10 |
Prof. Michel Ianoz |
Cross-talk between two circuits (I) |
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Lez. 11 |
Prof. Michel Ianoz |
Cross-talk between two circuits (II) |
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Lez. 12 |
Prof. Frederick Mark Tesche |
Antennas: Radiation of EM Fields |
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Lez. 13 |
Prof. Frederick Mark Tesche |
Scattering and Reception of EM Fields |
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Lez. 14 |
Prof. Frederick Mark Tesche |
Radiation in the Presence of Conducting Bodies |
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Lez. 15 |
Prof. Michel Ianoz |
Transmission Line Theory |
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Lez. 16 |
Prof. Frederick Mark Tesche |
Interaction of Electromagnetic Waves with Transmission Lines |
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Lez. 17 |
Prof. Frederick Mark Tesche |
Effects of Lossy Earth on EM Fields |
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Lez. 18 |
Prof. Frederick Mark Tesche |
Radiations Models for Apertures |
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Lez. 19 |
Prof. Frederick Mark Tesche |
Shielded Cables |
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Lez. 20 |
Prof. Frederick Mark Tesche |
Electromagnetic Shielding |
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Lez. 21 |
Prof. Frederick Mark Tesche |
Examples of Models and Their Use |
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Lez. 22 |
Prof. Roberto Graglia |
Introductin to numerical methods for EMC |
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Lez. 23 |
Prof. Roberto Graglia. |
Properties of integral equations |
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Lez. 24 |
Prof. Roberto Graglia |
Derivation of integral equations |
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Lez. 25 |
Prof. Roberto Graglia |
Electric, magnetic and combined field integral equations |
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Lez. 26 |
Prof. Roberto Graglia |
Combined Source Integral Equation. Thin-wire Structures |
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Lez. 27 |
Prof. Roberto Graglia |
Integral Equations for Bodies with Revolution Symmetry |
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Lez. 28 |
Prof. Roberto Graglia |
Parametric elemnts |
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Lez. 29 |
Prof. Roberto Graglia |
Integral Equations for Penetrable Objects |
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Lez. 30 |
Prof. Roberto Graglia |
The Finite Element Method - Part 1 |
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Lez. 31 |
Prof. Roberto Graglia |
The Finite Element Method - Part 2 |
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Lez. 32 |
Prof. Roberto Graglia |
The Method of Finite Differences in Time Domain |
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Lez. 33 |
Prof. Roberto Graglia |
Radiation and Absorbing Boundary Conditions |
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Lez. 34 |
Prof. Giuseppe Vecchi |
Lightning and LEMP I |
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Lez. 35 |
Prof. Giuseppe Vecchi |
Lightning and LEMP II |
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Lez. 36 |
Prof. Rodolfo Zich |
EMP (I) - Phisycs |
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Lez. 37 |
Prof. Rodolfo Zich |
EMP (II) - Phisycs |
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Lez. 38 |
Prof. Rodolfo Zich |
EMP (III) - Interaction with systems |
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Lez. 39 |
Prof. Rodolfo Zich |
EMP (IV) - Protections |
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Lez. 40 |
Prof. Michel Ianoz |
Lightning Electromagnetic Effects (I) |
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Lez. 41 |
Prof. Ianoz |
Lightning Electromagnetic Effects (II) |
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Lez. 42 |
Prof. Motohisa Kanda |
EM Field Measurement and Standards (I) |
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Lez. 43 |
Prof. Motohisa Kanda |
EM Field Measurement and Standards (II) |
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Lez. 44 |
Prof. Motohisa Kanda |
Electronic and Photonic Sensors for Electromagnetic Fields Measurements |
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Lez. 45 |
Prof. Motohisa Kanda |
Modelling and Analyses of Reverberation (Mode-Stirred) Chambers |