Development and production of thermoelectric modules
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According to RoHS directive requirements, serial thermoelectric coolers do not contain lead or any other forbidden materials

According to RoHS directive requirements, serial thermoelectric coolers do not contain lead or any other forbidden materials

Coolers for industrial applications

Designed to be used in the industrial systems of cooling and temperature control.


Main fields of application:

  • Industrial electronics and telecommunications
  • Thermoelectric cooling assemblies and conditioners with different functions
  • Thermoelectric cooling devices for cupboards and electronic equipment blocks
  • Systems of temperature control of the critical parts and components of different lathes and machines
  • Heat flow probes
  • Production of semiconductor integrated micro chips  
  • Laser equipment
  • Medical equipment
  • Transport
  • Food industry
  • Special equipment

   Thermo electric coolers for industrial use face higher requirements in efficiency, reliability, production accuracy and field performance data. 

  Special TECs (with С index) are produced for operation under temperature cycling conditions - rapid periodic (up to hundreds of thousands of cycles) changes of temperature of one or both sides of thermoelectric cooler in a wide (several tens of degrees) range of temperatures.

   We also produce thermoelectric coolers designed for operation in high temperatures, pressures, humidity, and fine vacuum.

   Thermoelectric modules and systems, produced by 'Kryotherm', fit all the modern industrial standards and special requirements. The quality and reliability of TECs are verified by numerous tests performed according to the system of quality accepted at the enterprise. Every batch of TECs is produced in one-to-one correspondence with the customers' specification and is tested according to a program, confirmed by the customer.


Abbreviations and definitions


thermoelectric cooler


generating thermoelectric module


maximum achievable temperature difference between the hot and cold side of  a thermoelectric cooler  


input current through a thermoelectric cooler resulting in greatest DT (DTmax)


voltage on a thermoelectric cooler contacts at DTmax


maximum cooling capacity of a thermoelectric cooler. It is determined at maximum current through a thermoelectric cooler and at zero temperature difference between hot and cold sides


electric resistance of a thermoelectric cooler measured at an alternating current with the frequency of 1 kHz




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