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Fiber Optic Transmission

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Title: Fiber Optic Transmission


1
Fiber Optic Transmission
  • SL/HL Option F.3

2
Reflection/Refraction
  • Reflection
  • A wave encounters a boundary between two mediums
    and cannot pass through
  • The angle of incidence is always equal to the
    angle of reflection
  • Refraction
  • When a wave passes through boundary into a new
    medium its speed changes
  • The wave will change directions based on the
    change in its speed

3
Refraction
  • If the wave speeds up it will bend away from the
    normal line
  • If the wave slows down it will bend towards the
    normal line
  • Snells Law

4
Critical Angle
  • When traveling into air from some medium, light
    will always speed up, thus increasing the angle
  • If it speeds up enough, the angle of refraction
    will be 90 degrees
  • This means that the refracted ray will travel
    along the edge of the boundary

5
Critical Angle
  • When light strikes the boundary at the critical
    angle or greater, the wave is totally reflected
    back into the first medium
  • Here n1 is the index of refraction of the medium
    the light starts in

6
Total Internal Reflection
  • Usually when a wave reaches a boundary between
    mediums it is partially reflected and partially
    refracted
  • When the critical angle is exceeded the entire
    wave is reflected back within the medium
  • The wave doesnt lose any energy

7
Optical Fiber
  • Fiber optic cable is made of thin,
    clear glass or plastic
  • Once light enters the cable it is
    totally internally reflected until it reaches
    the far end
  • Actual optical fiber is step indexed
  • There is another layer between
    the core and the outside
  • This is so the fibers can be
    bundled together

8
Dispersion
  • Modal
  • Not all the waves that enter make it to the other
    end, only certain ones
  • The possible paths are called modes
  • Material
  • Because different frequencies have different
    refractive indices, they have different paths
  • These can both cause problems if

    the bits of data arrive out of order
  • More direct modes are faster
  • Laser light and single mode cable reduce

    these effects

9
Material Dispersion
10
Attenuation
  • Attenuation is the opposite of amplification
  • As a signal travels through a cable it will
    slowly lose intensity as energy is lost
  • Attenuation is measured in decibels (dB)
  • The 10 at the beginning is to convert to decibels
  • Generally measured in dBkm-1

11
Wavelength/Attenuation
12
Noise
  • One advantage to using fiber optics is that it is
    not particularly susceptible to noise
  • Any noise that does occur is generally due to
    random light entering the end of the cable
  • The power ratio of noise to signal in fiber
    optics is generally in the range of 10-17 or 10-18

13
Reshapers
  • Monomode fibers can eliminate modal dispersion
    and lasers cut down on material dispersion, but
    it is not completely eliminated
  • Over a long distance individual pulses can start
    to overlap each other
  • Every 40-60km is a reshaper which will detect and
    reshape the signal
  • Has its own laser which sends a new signal

14
Amplifiers
  • Even with reshaping, signals still attenuate over
    the length of the cable
  • Amplifiers along the cable increase the signal
    strength to keep it going
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