This paper discusses the development of an experimental optical photocell which takes advantage of the properties and low cost of fibre-optics. The substitution of a photoelectric cell array by a group of fibre-optic cells will potentially reduce costs and improve the reliability of measurements.
There are a variety of daily life applications that rely on optical fibres for their basic operation. Some examples of such applications are given below: 1. Communication Systems
What is an optical fibre?
An optical fibre is basically a cylinder-shaped waveguide that is used in a variety of applications such as communication, entertainment, construction, decoration, medicine, healthcare, research and development, etc. The material generally used for the construction of optical fibres include silica, glass, and plastic.
Can optical fibres be used in real life?
Also, there are certain limitations to using optical fibres for different applications in real life as optical fibres are less robust than the traditional wires, are highly susceptible to suffering dents, and are likely to break easily if bent too much.
The material generally used for the construction of optical fibres include silica, glass, and plastic. Optical fibres are incredibly thin in size and are slightly thicker than the diameter of human hair.
Light-emitting diodes or LASER light are preferred light sources for the transmission of signals in optical fibre communication, while PN junction diodes and avalanche diodes are the preferred photodetectors for reception and detection purposes.
What is a photocell used for?
A photocell, also known as a photoresistor or light-dependent resistor (LDR), is an electrical component that changes its resistance based on the amount of light it is exposed to. Photocells are widely used in various applications, from simple household devices like nightlights to more complex systems such as street lighting and security alarms.