OT1.2-30-F2A

Thermoelectric, Peltier modules are components that operate using the Peltier effect. This effect occurs when two different types of metals are placed in contact with one another and an electric current is applied to them. The Peltier effect generates a temperature difference between the two pieces of metal due to the transfer of heat from one side to the other. The OT1.2-30-F2A is a type of thermoelectric, Peltier module that is designed for applications such as cooling, heating and thermal cycling.

The OT1.2-30-F2A is a four-phase thermoelectric cooler that is able to achieve a maximum power dissipation of 30W. It provides a wide range of voltage and current combinations, from 0 to 15V and 0 to 2A. The OT1.2-30-F2A features a high thermal conductivity, low thermal resistance, and high reliability. The module is designed to operate in a wide temperature range, from -20°C to +85°C. It also has a low self-heating effect and is RoHS compliant.

The OT1.2-30-F2A is typically used for temperature control applications such as cooling and heating. It can be used for cooling electronic components, and it is also often used in environmental testing equipment, solar modules, and medical devices. It is also commonly used for thermal cycling applications, which require rapid temperature switching from one temperature to another. This type of application requires the module to be able to rapidly switch between high and low temperatures and back again.

The OT1.2-30-F2A module uses the Seebeck effect to generate power from a temperature difference. The Seebeck effect occurs when two different types of metals are placed in contact with one another and a temperature difference is applied to them. This temperature difference causes the electrons in the two pieces of metal to move, creating an electrical voltage and current. This electrical current is then used to power the module.

The OT1.2-30-F2A module also works in reverse, allowing heat to be effectively driven away from an area. A voltage is applied to the module, which causes the electrons to move in the opposite direction. This generates an electric current that is used to transfer heat away from the module. This heat transfer is generated by a process referred to as the Peltier effect. The module is typically used in applications such as cooling electronics and thermal cycling.

The OT1.2-30-F2A is a reliable and efficient thermoelectric cooler that is designed for applications requiring accurate temperature control. It is typically used in applications such as environmental testing equipment, solar modules, medical devices, and thermal cycling. The module is able to accurately and rapidly cool and heat an area, making it a useful tool for temperature control applications.