Allicdata Part #: | 1487-1042-ND |
Manufacturer Part#: |
387001740 |
Price: | $ 13.66 |
Product Category: | Fans, Thermal Management |
Manufacturer: | Laird Technologies - Engineered Thermal Solutions |
Short Description: | ET4,12,F1,3030,TA,RT,W4.5 |
More Detail: | Peltier Module |
DataSheet: | 387001740 Datasheet/PDF |
Quantity: | 20 |
1 +: | $ 12.41730 |
10 +: | $ 11.38280 |
25 +: | $ 10.96860 |
Series: | -- |
Part Status: | Active |
Outline L x W x H: | -- |
Qmax @ Th: | -- |
Delta Tmax @ Th: | -- |
Operating Temperature: | -- |
Features: | -- |
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.Thermoelectric technology is an efficient and effective conversion technology that converts temperature differences into electricity. This technology has historically been used in a variety of temperature-sensitive applications, and is still used extensively today, including the industries of semiconductor production, energy storage, laser-driven industrial applications, and medical research. This article will focus on the application field and working principle of 387001740 Peltier Modules.
What is 387001740?
387001740 is a type of thermoelectric device, often referred to as a “Peltier” Module or Peltier cooler. It is a semiconductor device that uses the Peltier effect to produce a temperature differential between its two ends. It is a solid-state semiconductor device that requires the application of external power to function. Peltier Modules are widely used in a variety of applications, including refrigeration and heating, energy generation and storage, and potable water cooling and heating, among many others.
Application Fields of 387001740
387001740 Peltier Modules are used in many fields. One of the most common applications involves heating, cooling, and temperature control. Because the Peltier Module can produce a temperature differential between the two ends, it can be used to cool one side and heat the other side. This makes it ideal for applications that require precise temperature control, such as electronics cooling, medical research, and laser-driven industrial applications, among many others. It can also be used as an energy source in applications such as energy storage and generation.
Peltier Modules are also popular in potable water cooling and heating applications. Because of their efficient operation, these Peltier Modules are able to provide a safe and reliable way to cool and heat drinking water without the need for boiling. They can also be used to maintain a constant temperature in aquariums and swimming pools. In addition, these devices are widely used in the automotive industry, where they are used to cool and heat interior components.
Working Principle of 387001740
The working principle of the 387001740 Peltier Module is based on the Peltier effect. This effect describes the interaction between an electric current and the temperature gradient of a material. When a temperature difference exists between two points on a material, the current will move heat from one point to the other. In 387001740 Peltier Modules, this current is controlled and regulated by two solid-state semiconductors, which act as a bridge between the two ends. The power running through the bridge material causes a temperature change at the output, which is then used to regulate the temperature at the input.
The two semiconductors are made of positive and negative materials that act as receptors and emitters. When an electric current is applied to a Peltier Module, the positive semiconductor absorbs heat energy from its environment, and the negative semiconductor radiates the heat towards the environment. This helps to produce a temperature difference at the two ends of the module. The amount of power and the type of semiconductor materials used determine the final amount of heat energy that is absorbed or emitted by the module.
Conclusion
387001740 Peltier Modules are an efficient and effective way to convert temperature differences into electricity. These devices have a wide range of applications, from cooling and heating to energy generation and storage. They are based on the Peltier effect, and they are made up of two solid-state semiconductors that act as a bridge between the two ends. The amount of power and type of semiconductor material used determine how much heat energy is absorbed or emitted.
The specific data is subject to PDF, and the above content is for reference
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IELK1-38708-50B-V | Sensata-Airp... | 36.38 $ | 1000 | CIRCUIT BREAKER MAG-HYDR ... |
387001789 | Laird Techno... | 12.54 $ | 14 | ET4,3,F1,2020,TA,RT,W6Pel... |
387001794 | Laird Techno... | 12.54 $ | 15 | ET5,6,F1,2040,TA,RT,W6Pel... |
387001742 | Laird Techno... | 12.73 $ | 20 | ET4,7,F1,2323,TA,RT,W4.5P... |
387001765 | Laird Techno... | 12.85 $ | 20 | ET3,12,F2,3030,TA,RT,W6Pe... |
387001766 | Laird Techno... | 12.97 $ | 20 | ET4,12,F2,3030,TA,RT,W6Pe... |
387001793 | Laird Techno... | 12.97 $ | 20 | ET4,7,F2,3030,TA,RT,W6Pel... |
387001790 | Laird Techno... | 13.47 $ | 20 | ET4,6,F2,2138,TA,RT,W6Pel... |
387001740 | Laird Techno... | 13.66 $ | 20 | ET4,12,F1,3030,TA,RT,W4.5... |
387001840 | Laird Techno... | 13.71 $ | 20 | ET8,7,F2,3030,TA,RT,W6Pel... |
387001838 | Laird Techno... | 14.15 $ | 16 | ET6,7,F2,3030,TA,RT,W6Pel... |
387001795 | Laird Techno... | 14.27 $ | 23 | ET6,12,F1,3030,TA,RT,W6Pe... |
387001745 | Laird Techno... | 14.46 $ | 20 | ET14,3,F1,3030,TA,RT,W6Pe... |
387001746 | Laird Techno... | 14.83 $ | 20 | ET2,12,F2,3030,TA,RT,W6Pe... |
387001741 | Laird Techno... | 15.63 $ | 20 | ET2.5,12,F1,3030,TA,RT,W4... |
387001842 | Laird Techno... | 15.73 $ | 20 | ET9,31,F1,3030,TA,RT,W6Pe... |
387001835 | Laird Techno... | 16.44 $ | 13 | ET6,12,F1,4040,TA,RT,W6Pe... |
387001841 | Laird Techno... | 17.48 $ | 20 | ET9,3,F2,2525,TA,RT,W6Pel... |
387001816 | Laird Techno... | 17.48 $ | 7 | ET15,65,F2A,1312,11,W2.25... |
387001768 | Laird Techno... | 17.67 $ | 14 | ET4,12,F2,4040,TA,RT,W6Pe... |
387001815 | Laird Techno... | 17.97 $ | 15 | ET15,31,F2A,0909,11,W2.25... |
387001839 | Laird Techno... | 19.38 $ | 40 | ET7,16,F1,4040,TA,RT,W6Pe... |
387002317 | Laird Techno... | 23.97 $ | 40 | ET6,19,F1,4040,TA,RT,W6Pe... |
387001827 | Laird Techno... | 28.34 $ | 8 | ET15,24,F2,5252,TA,RT,W6P... |
387001814 | Laird Techno... | 37.11 $ | 20 | THERMOELECTPeltier Module |
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38706300000 | Littelfuse I... | 0.46 $ | 1000 | FUSE BRD MNT 250VAC/VDC R... |
387001826 | Laird Techno... | 39.21 $ | 11 | ET8,28,F2,5252,TA,RT,W6Pe... |
387001820 | Laird Techno... | 43.38 $ | 7 | ET-MS2,010,06,06,11,11,11... |
387001821 | Laird Techno... | 48.36 $ | 10 | ET-MS2,024,06,06,11,11,11... |
387001712 | Laird Techno... | 59.72 $ | 10 | ET-MS2,192,14,20,11,18,11... |
387000573 | Laird Techno... | 19.44 $ | 1000 | CP2,31,10,L1,W8 TEFLON LE... |
387002329 | Laird Techno... | 10.23 $ | 19 | ET4,3,F1,1515,TA,RT,W4.5P... |
387001748 | Laird Techno... | 10.92 $ | 20 | ET2.6,6,F1,1225,TA,RT,W6P... |
387001836 | Laird Techno... | 11.6 $ | 20 | ET7,3,F1,2020,TA,RT,W4.5P... |
387001764 | Laird Techno... | 11.6 $ | 20 | ET2,6,F1,1225,TA,RT,W6Pel... |
387001837 | Laird Techno... | 12.04 $ | 25 | ET6,3,F1,2020,TA,RT,W6Pel... |
387001747 | Laird Techno... | 14.33 $ | 1000 | ET2.3,49,F1,1919,TA,RT,W6... |
387001823 | Laird Techno... | 16.93 $ | 2 | ET8,12,F2,2525,TA,RT,W6Pe... |
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