Allicdata Part #: | 1487-1054-ND |
Manufacturer Part#: |
387001768 |
Price: | $ 17.67 |
Product Category: | Fans, Thermal Management |
Manufacturer: | Laird Technologies - Engineered Thermal Solutions |
Short Description: | ET4,12,F2,4040,TA,RT,W6 |
More Detail: | Peltier Module 40.00mm x 40.00mm x 4.14mm 34.6W @ ... |
DataSheet: | 387001768 Datasheet/PDF |
Quantity: | 14 |
1 +: | $ 16.05870 |
10 +: | $ 14.69660 |
25 +: | $ 14.24300 |
Series: | ET |
Part Status: | Active |
Outline L x W x H: | 40.00mm x 40.00mm x 4.14mm |
Qmax @ Th: | 34.6W @ 25°C |
Delta Tmax @ Th: | 67°C @ 25°C |
Current - Max: | 3.9A |
Voltage - Max: | 16.9V |
Resistance: | 4.59 Ohms |
Operating Temperature: | 150°C |
Features: | Lead Wires, Lapped, Sealed |
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Thermoelectric devices rely on the Peltier effect to provide direct cooling or heating, depending on how they are connected. Peltier modules, often just called thermoelectrics, are a class of small solid-state modules that use this effect of the Peltier effect to convert electric current to heat or cool down a device. 387001768 application field and working principle is just one example of such technology.
Leveraging the Properties of the Peltier Effect
The core principle of the Peltier effect is relatively simple: passing electrical current through a two-terminal device made of two different materials, such as bismuth telluride, causes a temperature difference between the two terminals. One side gets cooler and the other side gets hotter. This device is the basis of all thermoelectric modules.
The cooling effect is achieved by exchanging energy between the hot and cold regions within the Peltier module. Heat is transferred from the cold region to the hot region and then dissipated away. This principle makes the modules able to cool down electronics or other devices to easily keep them within desired temperature ranges.
Applications for 387001768 Application Field and Working Principle
The 387001768 application field and working principle is a high-performance thermoelectric that can cool down a high-powered device like an electronic component up to 70°C or lower. It is commonly used to cool down PCs or other electronics, such as cooling modules, televisions, and gaming consoles. It is also used in auto industry, industrial processes, and other industries where precise cooling is essential.
The module uses a combination of Peltier modules and a fan to achieve the necessary cooling effect. The fan helps move air over the module, helping dissipate the heat away from the module. This helps keep the module from getting too hot. The 387001768 module also utilizes an integrated temperature monitor and control system to precisely maintain the temperature.
The module also uses advanced thermal management technology to help manage the thermal load and prevent component or board damage. This allows the module to be used in high-power configurations, providing excellent cooling performance.
The Benefits of Peltier Modules
One of the biggest advantages of Peltier modules is their size and durability. They can be used in any environment, including extreme hot or cold environments. They are up to 95% efficient, meaning they can reduce power consumption significantly. They are also lightweight and low-cost, making them ideal for many applications.
The modules are also very versatile. They can be used to cool a variety of devices, from computers and electronic components to medical and dental equipment. Because of their small size, they are an excellent choice for applications where cooling is required but space is limited.
In addition, the modules can be used in both devices that run on direct current (DC) and alternating current (AC). This makes them an excellent choice for a range of applications, from fans and other cooling apparatus to temporary power supplies.
Conclusion
The 387001768 application field and working principle is a thermoelectric module designed for precise cooling. It makes use of the Peltier effect, which is based on the transfer of energy between two terminals, to control temperature differences. By using advanced thermal management technology, the module can be used in high-power configurations, allowing for precise cooling performance and higher efficiency. The module is also used in a variety of applications, from cooling electronics and medical devices to powering fans and other equipment.
The specific data is subject to PDF, and the above content is for reference
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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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387002329 | Laird Techno... | 10.23 $ | 19 | ET4,3,F1,1515,TA,RT,W4.5P... |
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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... |
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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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