| Allicdata Part #: | CP1.0-7-08L-ND |
| Manufacturer Part#: |
CP1.0-7-08L |
| Price: | $ 0.00 |
| Product Category: | Fans, Thermal Management |
| Manufacturer: | Laird Technologies - Engineered Thermal Solutions |
| Short Description: | THERMOELECT |
| More Detail: | Peltier Module 8.00mm L x 8.00mm W x 4.00mm H 1.2W... |
| DataSheet: |  CP1.0-7-08L Datasheet/PDF |
| Quantity: | 1000 |
| 1 +: | 0.00000 |
Specifications
| Series: | CP |
| Part Status: | Obsolete |
| Outline L x W x H: | 8.00mm L x 8.00mm W x 4.00mm H |
| Qmax @ Th: | 1.2W @ 25°C |
| Delta Tmax @ Th: | 67°C @ 25°C |
| Current - Max: | 2.5A |
| Voltage - Max: | 0.9V |
| Operating Temperature: | -- |
| Features: | Lead Wires |
Description
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I. Introduction
Thermoelectric technology, also known as Peltier technology, is a technology that converts electrical signals into thermal energy and vice versa using a two-way semiconductor device. The CP1.0-7-08L thermoelectric module (TEM) utilizes this technology to provide cooling solutions in a variety of applications. In this article, we will discuss the CP1.0-7-08L application field and its working principle.
II. Application of CP1.0-7-08L
The CP1.0-7-08L is a thermoelectric module specifically designed for cooling applications. It operates on a voltage of 7V and is capable of removing up to 8W of heat. The TEM is ideal for applications such as medical diagnostics, internal automotive components cooling, food models cooling, laser cooling, and many other applications.
III. Working Principle
The CP1.0-7-08L thermoelectric module uses the Seebeck effect in order to generate a temperature difference between the two sides of the module. This effect occurs when two dissimilar metals are connected in a circuit. The heat generated on one side is then transferred to the other side when the TEM is connected to a voltage source. The module works by providing a voltage across two oppositely mounted semiconductor couples. This generates a thermal transfer from the cold to the hot side of the module, cooling any components mounted on the cold side.
IV. Conclusion
In conclusion, the CP1.0-7-08L thermoelectric module is an ideal solution for a range of cooling applications. It is capable of providing a maximum of 8W of cooling and operates on a simple 7V power supply. The module works by utilizing the Seebeck effect to transfer heat from the cold side of the module to the hot side. Through understanding this technology, we can better understand the functioning of the CP1.0-7-08L TEM.
Thermoelectric technology, also known as Peltier technology, is a technology that converts electrical signals into thermal energy and vice versa using a two-way semiconductor device. The CP1.0-7-08L thermoelectric module (TEM) utilizes this technology to provide cooling solutions in a variety of applications. In this article, we will discuss the CP1.0-7-08L application field and its working principle.
II. Application of CP1.0-7-08L
The CP1.0-7-08L is a thermoelectric module specifically designed for cooling applications. It operates on a voltage of 7V and is capable of removing up to 8W of heat. The TEM is ideal for applications such as medical diagnostics, internal automotive components cooling, food models cooling, laser cooling, and many other applications.
III. Working Principle
The CP1.0-7-08L thermoelectric module uses the Seebeck effect in order to generate a temperature difference between the two sides of the module. This effect occurs when two dissimilar metals are connected in a circuit. The heat generated on one side is then transferred to the other side when the TEM is connected to a voltage source. The module works by providing a voltage across two oppositely mounted semiconductor couples. This generates a thermal transfer from the cold to the hot side of the module, cooling any components mounted on the cold side.
IV. Conclusion
In conclusion, the CP1.0-7-08L thermoelectric module is an ideal solution for a range of cooling applications. It is capable of providing a maximum of 8W of cooling and operates on a simple 7V power supply. The module works by utilizing the Seebeck effect to transfer heat from the cold side of the module to the hot side. Through understanding this technology, we can better understand the functioning of the CP1.0-7-08L TEM.
The specific data is subject to PDF, and the above content is for reference
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