ELECTROMAGNETISM

1. ELECTROMAGNETISM ? Studies the interaction between electric charges in arbitrary motion

2. Radio Link

3. Applications of electromagnetism • ELM for ENERGY • ELM for INFORMATION

4. Electromagnetism for energy • Electrical machines • Electric energy distribution • Heating (induction ovens, microwave ovens…) • Biomedical applications (treatment) • Particle accelerators • Plasma heating (nuclear fusion)

5. Electromagnetism for information • Telecommunications • Electromagnetic remote sensing • Biomedical applications (diagnosis) • Metrology applications • “Computer” applications • High speed electronics applications

6. Frequency range • “Low frequency” lumped parameter circuits if size of circuit << cT=c/f=l

7. Frequency range • “high frequency” distributed parameter circuits if size of circuit comparable with cT=l c=300 000 km/s = 30 cm/ns = 300 mm/ps

8. Types of propagation • Free space propagation Attenuation with geometrical origin

9. P T P R Types of propagation • Guided wave propagation D (=1 with negligible losses)

10. Radio Electric Spectrum • f: 3 - 30 kHz VLF l: 100 - 10 km Very Low Frequency: Radio navigation • f: 30 - 300 kHz LF l: 10 - 1 km Low Frequency: Radio navigation, Long wave broadcasting

11. Radio Electric Spectrum • f: 300 - 3000 kHz MF l: 1 - 0.1 km Medium frequencies: AM Broadcasting, maritime communications • f: 3 - 30 MHz HF l: 100 - 10 m High Frequencies: AM Broadcasting, Amateur radio

12. Radio Electric Spectrum • f: 30 - 300 MHz VHF l: 10 -1 m Very high Frequencies: TV, FM Broadcasting, Police, Taxi • f: 300 - 3000 MHz UHF l: 100 - 10 cm Ultra High Frequencies: TV, radar, cell phones

13. Radio Electric Spectrum • f: 3 - 30 GHz SHF l: 10 - 1 cm Super High Frequencies: Radar, radio links, satellites • f: 30 - 300 GHz EHF l: 10 - 1 mm Extremely High Frequencies: Radar, urban communications, remote sensing

14. Radio Electric Spectrum • l: 1000 - 0.77 mm IR • l: 0.77 - 0.39 mm visible • l: 390 - 10 nm UV • l:X rays

15. Radio Electric Spectrum • l: g rays • l: cosmic rays

16. Some dates • 1873 - Maxwell Equations • 1887 - 1891 Hertz experiments • 1885 - 1887 Heaviside • 1894 - 1902 Marconi experiments • 1897 Lord Rayleigh: waveguides • 1940 - 45 Radar • 1950 ... Stripline and Microstrip

17. microstrip stripline

18. Some dates • 1960 ... Microwave integrated Circuits (MIC) • 1970 ... Monolithic Microwave Integrated Circuits (MMIC) • 1980 Low loss optical fibers: • a = 0.2 dB/km • Today: hundreds of millions km of fibers deployed