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Photoconductive Cells


Photoconductive cells are light-sensitive resistors in which resistance decreases with an increase in light intensity when illuminated. These devices consist of a thin single-crystal or polycrystalline film of compound semiconductor substances. Most commercially available photoconductive cells are manufactured from cadmium sulfide (CdS), which is sensitive to light in the visible spectrum. Other materials that are less commonly used in photoconductive cells include lead sulfide (PbS), lead selenide (PbSe), and lead telluride (PbTe), although they react to infrared light, not the visible spectrum.

CdS photoconductive cells (CdS cells) are often referred to as light dependant resistors (LDR). They function within the same general spectral range as the human eye, and are therefore widely used in applications where this type of spectral response is required.

Photoconductive cells function by receiving light energy, which in turn free electrons from their valence bonds in semiconductor material. At room temperature, the number of free charges in a semiconductor is relatively limited, but the addition of light-released electrons raises conductivity (and thereby reduces resistance). This change is resistance may be as large are several hundred thousand ohms from a darkened state to only a few hundred ohms in sunlight. Embedding the conductive path within the semiconductor substrate, in a zig-zag pattern, will enhance the level of resistance. In addition to an increase in dark resistance, this same pattern will reduce the current as well, changing the output current to about one milliampere (mA) per lumen.

Photoconductive cells are generally inexpensive, and their small size and ease of use makes them popular in many applications. Some of the many uses include making street lights turn on and off automatically according to the level of daylight, in point-of-sale and inventory bar code reading devices, in security devices such as motion sensing lights and cameras, and in alarm systems. They also are used as light meters in photographic applications.





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  1. Julia

    Waterfalls Hydro energyWater falls from a great hhiget, as it falls potential energy are converted to kinetic energy which den drive the turbine of an electric generator, producing mechanical power.Solar EnergyLight from the sun are discrete packet of energy. When the light shone on the solar panal which is a p-n semiconductor, electrons are excited by the sunlight, producing an electron-hole pair. these electron-holes pair will den act as a charge carrier conducting electricity. When potential difference is applied, the charge carriers will flow in a specific direction generating electricity and hence power.Hope this helpsReferences :






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