Fibre Optic Transmission Technology


Usually, a Fibre optic communication system consists of 3 main components: optical transmitter, Fibre optic cable and an optical receiver. The optical transmitter converts electrical signal to optical signal; the Fibre optic cable carries the optical signal from the optical transmitter to the optical receiver; and therefore the optical receiver reconverts the optical signal to electrical signal. The most normally used optical transmitter is semiconductor devices like LEDs (light-emitting diodes) and laser diodes.

Photodetector is that the key a part of an optical receiver. It converts light into electricity victimization photodetector result. As for the Fibre optic cable, there's an excessive amount of to say. Because the use and demand for speed and bandwidth, the event of optical cables is wonderful. Currently within the optical cable market, there are OS2 Fibre, OM1 Fibre, OM2 Fibre, OM3 Fibre, OM4 Fibre and OM5 Fibre cable for various optical applications. Optical Fibres are used as a medium for telecommunication and networking as a result of its flexible and may be bundled as cables. It particularly advantageous for long-distance communications, as a result of light propagates through the Fibre with very little attenuation compared to electrical copper cables. The figure below shows that all Fibre optic transmission systems use modulated light to convey data from a transmitter to a companion receiver.

Anderson Fibre optics is most emerging company in Australia. We are offering wide range of high quality Fibre optic patch cables.

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