Allicdata Part #: | 44430-501-ND |
Manufacturer Part#: |
44430-501 |
Price: | $ 16.73 |
Product Category: | Fans, Thermal Management |
Manufacturer: | Laird Technologies - Engineered Thermal Solutions |
Short Description: | THERMOELECT |
More Detail: | Peltier Module 15.00mm L x 30.00mm W x 3.20mm H 16... |
DataSheet: | 44430-501 Datasheet/PDF |
Quantity: | 1000 |
100 +: | $ 15.20690 |
Series: | CP |
Part Status: | Active |
Outline L x W x H: | 15.00mm L x 30.00mm W x 3.20mm H |
Qmax @ Th: | 16.6W @ 25°C |
Delta Tmax @ Th: | 67°C @ 25°C |
Current - Max: | 3.9A |
Voltage - Max: | 7.6V |
Operating Temperature: | -- |
Features: | Lead Wires |
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A thermal- thermoelectric, peltier module also known as a peltier device is a widely utilized device that can act as an alternate form of heat to provide thermal stability within a broad range of applications. This device is often used in industrial, scientific, and entertainment applications such as cooling semiconductors, or providing a radiating surface for thermoelectric heating applications. It utilizes a temperature difference between two substances to conduct heat, primarily heated or chilled with the electronic components within the module.
At its most basic level the thermal- thermoelectric, peltier module technology refers to the transfer of heat between two materials which are connected electrically. An electric current is applied across the two different materials, which cause a reaction in the materials to transfer heat from one material to the other. This transfer creates a temperature gradient, allowing the two materials to exchange heat energy until they reach a thermal equilibrium. This action is known as Seebeck effect, named after Thomas Johann Seebeck who discovered the material behavior in 1821.
The thermal- thermoelectric, peltier module takes the principal of the Seebeck effect and applies it to a module. The module consists of two dissimilar electrical conductor filled with semiconductor material. When a direct voltage is applied across the two electrical conductors the electrical currents begin to flow through the semiconductor material. This in turn causes the hot side to become hot while the cooler side become cooler. This process will continue to move heat between the two surfaces until the temperatures of both surfaces become equal. Thermal regulation, refrigeration, and heating are all applications that can benefits from a thermal- thermoelectric, peltier module.
The 44430-501 module is an advanced thermoelectric cooler that is designed for cooling applications in industrial, laboratory, and applications. It features a working current of 4.2 amps, heat dissipation of 12 W/mK and a wide working temperature range of -50˚C to 150˚C. It consists of four thermoelectric modules, each one with a width of 40mm and an operating voltage of 12 V. The module contains a copper heat spreader, integrated fans, and a heat sink for efficient cooling of electronic components. This module is highly efficient, capable of providing thermal stability and managing thermal regulations in a wide variety of applications.
The 44430-501 is designed for applications where space is at a premium. It can be mounted in tight spots and still provide efficient cooling for the application. Its dual fan design helps to provide a balanced heat dissipation for the application. It also comes with an integrated controller that helps to ensure that the thermal conditions remain stable during operation. The controller will monitor the temperature and adjust the power output of the thermoelectric modules to keep the maximum temperature of the system within the desired range.
The 44430-501 is a powerful and efficient thermoelectric cooler. It can be used in a variety of applications, from high intensity cooling needs to refrigeration applications, and it is a great choice for those that need a reliable and efficient thermoelectric module. With its integrated fans and heat spreader, it can provide a reliable cooling environment, and its controller can help to ensure thermal stability. This advanced thermoelectric module from Ancon Instruments is a great choice for those who need to heat or cool applications in a cost effective and reliable manner.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
44430-501 | Laird Techno... | 16.73 $ | 1000 | THERMOELECTPeltier Module... |
444334-2 | TE Connectiv... | 0.04 $ | 50000 | CONN QC RCPT 18-22AWG 0.2... |
444335-3 | TE Connectiv... | 0.02 $ | 1000 | CONN QC RCPT 13-17AWG 0.2... |
444335-2 | TE Connectiv... | 0.02 $ | 1000 | CONN QC RCPT 13-17AWG 0.2... |
444334-3 | TE Connectiv... | 0.03 $ | 1000 | CONN QC RCPT 18-22AWG 0.2... |
444335-1 | TE Connectiv... | 0.03 $ | 1000 | CONN QC RCPT 13-17AWG 0.2... |
444334-1 | TE Connectiv... | 0.04 $ | 1000 | CONN QC RCPT 18-22AWG 0.2... |
444305-1 | TE Connectiv... | 0.34 $ | 1000 | CONN RING D-SHAPE 8-10AWG... |
44432-0402 | Molex, LLC | 0.67 $ | 1000 | CONN HEADER 4POS 3MM VERT... |
444312-1 | TE Connectiv... | 1.22 $ | 2688 | HSG 12 POSN, FUSE CONTACT |
70156-4443 | Omron Automa... | 4.85 $ | 1000 | SYSTEM |
44432-0401 | Molex Connec... | 1.12 $ | 1809 | CONN HEADER 4POS 3MM VERT... |
44432-1201 | Molex Connec... | 1.71 $ | 2785 | CONN HEADER 12POS 3MM VER... |
44432-1601 | Molex Connec... | 2.0 $ | 10758 | CONN HEADER 16POS 3MM VER... |
44432-1202 | Molex Connec... | 1.98 $ | 1092 | CONN HEADER 12POS 3MM VER... |
44432-1401 | Molex Connec... | 1.98 $ | 293 | CONN HEADER 14POS 3MM VER... |
44432-0802 | Molex Connec... | 1.6 $ | 310 | CONN HEADER 8POS 3MM VERT... |
44432-1602 | Molex, LLC | 4.04 $ | 47 | CONN HEADER 16POS 3MM VER... |
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