Fiberoptics |
Contents
Why Fiberoptics? | 9 |
Modulation Techniques | 18 |
Basic Information Transmission Attenuation Noise and DetectabilitySystem Bandwidth | 38 |
Copyright | |
16 other sections not shown
Common terms and phrases
acceptance cone amplifier amplitude analog angle aperture applied atom attenuation axis band bandwidth bolometer cable carrier circuit connector coupler coupling coupling loss crystal curve detector device diode electrical electron energy Equation example fiberoptic fiberoptic system Figure focal length forward drop frequency function glass graded index fiber input lamp lasing threshold lens lenses light linear load resistor loss measured medium meters mode modulation noise numerical aperture ohms operation optical optical fibers output peak percent phase photodiode photon phototransistor PIN diode propagate pulse radiation radio range receiver reflection refraction relatively resistance resistor rise rotation shown in Fig shows signal signal-to-noise ratio silicon spectrum square stepped index fiber technique temperature tion transimpedance amplifier transistor transmission transmitter tube unit vector velocity voltage voltage-to-current converter volts watts wave waveguide wavelength zero