Allicdata Part #: | 102-4441-ND |
Manufacturer Part#: |
CP85234H |
Price: | $ 12.19 |
Product Category: | Fans, Thermal Management |
Manufacturer: | CUI Inc. |
Short Description: | PELTIER, 20 X 20 X 3.4 MM, 8.5 A |
More Detail: | Peltier Module 20.00mm x 20.00mm x 3.40mm 18.8W @ ... |
DataSheet: | CP85234H Datasheet/PDF |
Quantity: | 86 |
1 +: | $ 11.08170 |
5 +: | $ 10.40260 |
10 +: | $ 10.15620 |
25 +: | $ 9.78670 |
50 +: | $ 9.54044 |
100 +: | $ 9.29418 |
Series: | CP85H |
Part Status: | Active |
Outline L x W x H: | 20.00mm x 20.00mm x 3.40mm |
Qmax @ Th: | 18.8W @ 27°C |
Delta Tmax @ Th: | 70°C @ 27°C |
Current - Max: | 8.5A |
Voltage - Max: | 3.8V |
Resistance: | 350 mOhms |
Operating Temperature: | 80°C |
Features: | Lead Wires, Sealed - Silicone RTV |
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Thermoelectric modules, such as CP85234H, are often used in applications where heat transfer is desired, such as cooling or heating. The CP85234H is a thermoelectric module (TEM) that uses the Peltier effect to create a heat transfer between two sides of the same device when electric current is applied. In this article we will discuss the application fields and working principle of the CP85234H.
What is Thermoelectric Module (TEM)
Thermoelectric module or TEM is an electrical component capable of generating electricity from temperature differences between two sides of the device. This type of module utilizes the Peltier effect, first discovered in 1834 by Jean Peltier, to convert heat energy into electrical energy. The Peltier effect applies when current is applied to two dissimilar conducting materials; on one side electricity is generated, while on the other side electricity is absorbed. This results in a net cooling on one side and heating on the other side.
Application Field of CP85234H
CP85234H is a TEM with parameters of 19.2V, 8.7A, and 167W maximum power. It features fast cooling speed, good thermal stability and reliability, and low acoustic noise. With its power level, it is suitable for applications that require precise control of temperature; such as computer equipment, laser equipment, cooling systems, and others. It is also widely used in semiconductor fabrication processes, medical applications, and research laboratories.
Working Principle of CP85234H
Although CP85234H is built with Peltier effect in mind, the actual working principle of TEMs is more complex. To understand the working principle of TEMs we first need to understand what Peltier effect is. As mentioned earlier, the Peltier effect applies when current is applied to two dissimilar conducting materials; on one end electricity is generated, while on the other side electricity is absorbed. This creates a net cooling on one side and heating on the other side.
The CP85234H utilizes this principle in order to create a metabolic heat transfer. It consists of two semiconductor layers that have been interconnected and sealed within a protective housing. When electric current is applied through the semiconductor layers, the Peltier effect creates a metabolic heat transfer between the two sides. This allows the CP85234H to move thermal energy from one side of the device to the other side. This transfer of thermal energy is what allows a CP85234H to be used in applications that require cooling.
In addition to the Peltier effect, the CP85234H also utilizes a heat sink to help optimize the cooling performance. The heat sink absorbs excess thermal energy from the environment and dissipates the heat into the air, helping to maintain a steady temperature inside the device.
Conclusion
CP85234H is a thermoelectric module (TEM) that utilizes the Peltier effect to create a metabolic heat transfer between two sides of the same device when electric current is applied. This thermal transfer allows CP85234H to be used in a variety of applications such as computer equipment, laser equipment, cooling systems, semiconductor fabrication processes, medical applications, and research laboratories. CP85234H also uses a heat sink to help optimize the cooling performance.
The specific data is subject to PDF, and the above content is for reference
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