Uses Of Photocells

Photocells are semiconductors that are light detectors. They are essentially light dependent resistors, because they have an output that is proportional to the amount of light that falls upon them. Because of this effect, they are also known as photoresistorsors or light dependent resistors (LDRs).

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Operation

Photocells convert light energy into electrical energy. When no light is present, they have a very high resistance that may be millions of ohms. In contrast, when light is present, their resistance lowers greatly to a few hundred ohms. This allows more current to flow inside the circuit.

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Significance

They may be used with either alternating or direct currents. Photocells are small in size, but inexpensive and durable. Their versatility allows them to detect all kinds of light in all kinds of conditions. The range is from visible to infrared light. Examples of sources include:

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moonlight
sunlight
lasers
fire
neon
fluorescent
the like

This allows them to function in two ways: digitally, to indicate whether light is present, or in analog fashion, to indicate the intensity of light.

Construction

The material of choice in their construction is cadmium sulfide, because it has a light sensitivity akin to that of the human eye. For this reason they may also be referred to as CdS cells. Another ingredient is cadmium selenide. To detect infrared, lead sulfide, lead selenide or indium antimonide is used.

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To construct them, a thin layer of a material is deposited on a ceramic substrate. The electrodes are then evaporated onto the surface. They may be coated with a plastic or glass window.

Features

Despite being formed from semiconductors, photocells lack a PN junction. A PN junction is formed from a combination of positive and negative type semiconductors, and is the basis of components, such as diodes and transistors.

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In photocells, a photon or light particle forces electrons from their positions in the material's atoms, leaving holes with positive charges. An applied voltage through the photocell forces the holes and the electrons flow, thereby creating a current.

Their symbol is that of a resistor with two arrows pointing towards one side. Like ordinary resistors, they lack polarity, which and so they may be placed in either direction inside a circuit.

Uses

Photocells have myriad uses, especially as switches and sensors. They are a common fixture in robotics, where they direct robots to hide in the dark, or to follow a line or beacon. Automatic lights that turn on when it gets dark use photocells, as well as streetlights that switch on and off according to whether it is night or day. They are used as timers to measure the speeds of runners during a race.

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Photocells may be used in the place of variable resistors and photovoltaic cells. Some circuit applications include light meters and light controlled relays.

Cite This Article

MLA

Lewis, Kim. "Uses Of Photocells" sciencing.com, https://www.sciencing.com/uses-photocells-5494652/. 24 April 2017.

APA

Lewis, Kim. (2017, April 24). Uses Of Photocells. sciencing.com. Retrieved from https://www.sciencing.com/uses-photocells-5494652/

Chicago

Lewis, Kim. Uses Of Photocells last modified March 24, 2022. https://www.sciencing.com/uses-photocells-5494652/

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