Allicdata Part #: | ET1.2-17-F1A-ND |
Manufacturer Part#: |
ET1.2-17-F1A |
Price: | $ 0.00 |
Product Category: | Fans, Thermal Management |
Manufacturer: | Laird Technologies - Engineered Thermal Solutions |
Short Description: | THERMOELECT |
More Detail: | Peltier Module |
DataSheet: | ET1.2-17-F1A Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | -- |
Part Status: | Obsolete |
Outline L x W x H: | -- |
Qmax @ Th: | -- |
Delta Tmax @ Th: | -- |
Operating Temperature: | -- |
Features: | -- |
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Thermoelectric materials are materials that possess the properties of thermoelectricity. This means that when there is a temperature difference between two sides of the material, electrons will flow in one direction, resulting in a voltage between the two sides. This phenomenon is known as the thermoelectric effect. The ability of materials to convert a temperature difference into an electric current is exploited in areas such as cooling, heating, and energy harvesting.
ET1.2-17-F1A is a particular type of thermoelectric module, otherwise known as a Peltier module. This type of module is used in electronic devices for cooling, heating, and energy conversion. It works on the basis of the thermoelectric effect, and it is capable of cooling or heating depending on the direction of the current. The module consists of two thin wafers of semiconductor materials, and it is the presence of these materials that enables it to convert the thermal energy into electrical energy.
ET1.2-17-F1A has several potential applications, including cooling or heating applications such as refrigerators and electric kettles, as well as in energy harvesting systems that capture waste heat and convert it into usable electricity. It can also be used in devices that use the Seebeck effect to generate power from temperature differences, such as biofuel cell-powered thermopiles. Additionally, it can be used to create temperature control loops in industrial environments.
The working principle of the ET1.2-17-F1A module is based on the thermoelectric effect. When a temperature difference is applied to the two sides of the module, electrons flow in one direction, producing a voltage between the two sides. This voltage can then be used to move heat from one side of the module to the other, resulting in cooling or heating depending on the direction of the current. The module also supports reverse polarity, so the direction of the current can be reversed and the heat will move in the opposite direction.
The module is also able to generate electrical power, and this is done through the use of a thermocouple. A thermocouple consists of two wires of different metals connected by the two sides of the module. When a temperature difference is applied to the two sides, the two wires produce a voltage which can be used to power an electronic device. The power output of the module can be adjusted by changing the temperature difference between the two sides.
In summary, the ET1.2-17-F1A is a thermoelectric module that can be used for cooling, heating, and energy harvesting. It works on the basis of the thermoelectric effect, and is able to convert a temperature difference into electricity that can then be used to power an electronic device. This makes it an ideal choice for applications such as refrigerators, electric kettles, biofuel cell-powered thermopiles, and industrial temperature control loops.
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