Naval Weapons Systems

1. Naval Weapons Systems Energy Fundamentals

2. Energy Fundamentals • RAdio Detection And Ranging • Radar is an electromagnetic wave that acts like any other electromagnetic wave (i.e. - radio, light, etc.) • Characteristics of a radio wave assuming a frequency of 2 Hertz: Cycle Amplitude 1 second

3. Traveling Wave Characteristics • Frequency • Period • Wavelength • Velocity • Amplitude • ...examples....

4. Maxwell’s Theory • An accelerating electric field will generate a time-varying magnetic field. • A time-varying magnetic field will generate a time-varying electric field. • ...and so on...and so on...and so on...

5. Formation of Electric and Magnetic Fields around an Antenna E-line Mag field e- e- e- Electric field | Magnetic Field | Direction of Propagation.

6. Electromagnetic Spectrum

7. Propagation Paths of E-M Waves • Reflection • Refraction • Diffraction

8. ...Reflection... Phase shift = 180 degrees. Angle of incidence = Angle of reflected wave. Reflected Wave IncidentWave

9. ...Refraction... • Incident wave passes through two transparent media in which the velocity of light differs... • Incident wave divides into a reflected wave and a refracted wave. • The result is that the energy ray will bend toward the area of higher density.

10. θ1 Medium 1 Medium 2 θ2 Snell’s Law n1*Sin θ1=n2*Sin θ2

11. island not detected ...Diffraction... ...plane waves traveling in a straight path bend around a boundary or obstruction. detected

12. Wave Propagation – Distance and Frequency • Ground Waves • Sky Waves • Space Waves

13. Ground Wave... • E-M energy travels along earth’s surface • Very low frequencies, 5-10Khz • Extremely wavelengths • Shore communications stations (HF-DF)

14. Sky Wave... • E-M energy refracts toward earth’s surface in upper ionosphere layer • E-M energy then reflects back toward upper layer again • Frequencies to 550 KHz effectively • Fairly long wavelengths • Ship and Aircraft Communications

15. Space Wave... • E-M energy refracts back toward earth’s surface in outer space (i.e. stratosphere) • Above 30 MHz, ionosphere will not refract E-M waves back toward earth.

16. Transmission Range Factors • Antenna Height • Target Height • Ducting • Losses • Spreading • Absorption • Constructive Interference • Destructive Interference

17. Communication Systems

18. Basic Comms Path

19. Transmitter • Transducers – Changes energy form • Acoustic waves to EM waves • Boosts power of signal to increase distance.

20. Transmission Channel • Air • Water • Wire • Co-axial • Fiber Optics • Beer

21. Transmit/Receive Capability • Simplex – one or the other • i.e. – car radio • Half-Duplex – both, but not at same time. • i.e. – “walkie-talkie” • Full-Duplex – both and at the same time • i.e. – shipboard telecommunications systems

22. Receiver • Tuner – allows particular frequency reception

23. Modulation • The process of encoding “Carrier Wave” • “Carrier Wave” has 3 independent parameters • Amplitude • Frequency • Phase

24. Noise • Noise is bad on a communications circuit. • Two types: • Broadband Noise – “White Noise” • Narrowband Noise – “Interference”

25. Signal-to-Noise Ratio • Expressed as a ratio of: • Signal power / Noise power • Unit of measure in Decibels • The more positive the number, clearer the signal. • Unless you want to hide it!!!

26. Questions?