Partnering with X-Meritan is your first choice! Direct to Air Thermoelectric Coolers Assemblies is the culmination of our years of experience in this field. Years of experience, a professional team, and high-quality service guarantee product quality. We welcome customers with needs to become our partners and work together to create a better future.
Direct to Air Thermoelectric Coolers Assemblies from X-Meritan meet all modern industrial standards and specialized requirements. Product quality and reliability are verified through extensive testing conducted according to our company-accepted quality management system. Each batch is manufactured to customer specifications and tested according to confirmed procedures until customer satisfaction is achieved.
When the core component, the thermoelectric cooling module, is powered on, a hot and cold reaction occurs at both ends. The heat sinks at the hot and cold ends of the TEC are in contact with each other, absorbing and dissipating heat. The product utilizes a semiconductor thermoelectric chip, has no mechanical moving parts, operates stably, supports high-precision temperature regulation, and has a wide temperature control range to meet the needs of various application scenarios. The overall noise level is low, making it suitable for use in quiet environments. It also occupies a small space and is easy to integrate and install.
Direct to Air Thermoelectric Cooler Assemblies are solid-state cooling devices based on the Peltier effect. They drive semiconductor chips with direct current to achieve heat and cold separation. A fan on the cold side delivers cool air directly to the target object, while another fan on the hot side dissipates heat.
This product is suitable for applications requiring high temperature control precision, limited installation space, and noise sensitivity. Compared to traditional compressor cooling, it offers significant advantages such as zero vibration, zero pollution, fast response, and long life.
TEC Thermoelectric Cooler
TGM Thermoelectric Generator Module
DTmax The maximum achievable temperature difference between the hot and cold sides of a thermoelectric cooler
Imax The input current through the thermoelectric cooler that results in the maximum DT (DTmax)
Umax The voltage across the thermoelectric cooler contacts at DTmax
Qmax The maximum cooling capacity of the thermoelectric cooler. It is determined at the maximum current through the thermoelectric cooler and a zero temperature difference between the hot and cold sides.
Rac The resistance of the thermoelectric cooler measured under an alternating current with a frequency of 1 kHz
