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The greatest advantage of using the LED is its tendency to be turned on and off rapidly. This allows creating different pulses of the source. The amount of light produced by the LED depends on the current flowing through it. The more the current, the range of amount of light produced is high. However, more current might also destroy the LED due to the excessive heat produced by it.[2]
Working principle of Laser
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Currently laser diodes are common in use due to its unique characteristics which include consistent wavelength of the emitted light, small beam diameter, and long range.[1]
Light detector
The light detector is the component used to detect the light produced by the light source. They are commonly known as photodiode or phototransistor. Due to its capability of sensing the different pulses of light they are known as receiver. There best application is in the receiver end of the optical fiber data transmission. The transponder connected with it converts the light sensed by these detectors to electrical pulses.
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The spectral response of the light detector determines its sensitivity to different wavelengths in light spectrum. Thus, to increase the sensitivity, the spectral of source and the detector are matched.[2]
Working principle
The photo diode is connected in revearsed bias way. It operates by converting signals that hit the junction to a voltage or current. The junction uses and illumination window with an anti-reflect coating to absorb the light photons. The result of the absorption of photons is the creation of electron hole pairs.
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hf is the energy of a photon of light.[2]
This equation can be rearranged as
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Figure 3: Frequency graph[2]
As seen by the above equation the energy of the photon of light depends on the frequency of the light.
Thus the working principle of photodiode can be explained in the opposite of LED working principle. The photodiodes are the semiconductors with conduction and valence energy bands. Electrons at the valence band cannot move hence no current flows through the material. However a small voltage can make the electrons move from the condution band. When a photon with energy E(as described above) strikes the photodiode, the photon is absorbed. The energy of the photon is absorbed by the electron, it gets excited and is able to move thus producing the electrical signal. This is how light power- a number of photons times a photon's energy per unit of time is converted to electrical signal or current which can be explained in Figure 4. [3]
Figure 4: Principle of operation Photodiode[3]
References
- Encyclopedia: Definition of Laser
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