* a semiconductor with a p-n junction
PRINCIPLES OF PHOTODIODE
* Photons is the source of its energy
* Energy can be solved by the equation:
h =Plancks constant= 6.624—10-34
f = frequency
* The frequency is, in turn, directly related to the wavelength (distance between successive peaks) of the traveling wave by the following equation: = Vf
f = frequency
V = velocity of light
* 1 lm=1.496—10-10 W
* Light intensity is measured in lmft2, footcandle (fc), or Wm2 * The operation of the photodiode is limited to reverse bias region. * The application of light will result to the transfer of energy(photons) * Dark current current that will exist without illumination.
* employed in an alarm system.
* reverse will continue to flow as long as the light beam does not broken
* used to count items in the conveyors belt.
* item passed the light beam then it will be broken the current will drops to the dark current level and the counter will increase.
* A photoelectric device with photosensitive collector-base p-n junction. The current induced by photoelectric effects is the base current of the transistor.
PRINCIPLES OF PHOTOTRANSISTOR
* If we assign the notation I , for the photoinduced base current, the resulting collector current, on an approximate basis is
* An increase in light corresponds with the increase in collector current.
* Punch-card readers
* Computer logic circuitry
* Lighting control
* Level indication
* Counting systems
* High isolation AND gate using three phototransistors and three LED as is aid. * The high isolation simply refers to the lack of an electrical connection between the input and output circuits.