In comparison with the other technologies exploited in contemporary electronics the technology of making state-of-the-art processors is the most progressive. Primary requirements applicable to their parameters are the increase of their functional speed and the reduced power consumption attained for the account of reducing their feed voltage. Thermal stabilization criterion is of a paramount importance in terms of proper functioning winchester disks, video cards, mother boards, CD-ROMs and other personal computer components.
Cooling computer processors with the use of heat radiators and fans is not in a position to maintain the necessary stabilization of their thermal conditions, whereas our thermoelectric systems can cool components of computer processors to temperature below the ambient one. In case of application of liquid cooling system composed of heat radiator and liquid discharge tubes such an effect cannot be provided.
Thermoelectric cooling method is applied also to attain better processor productivity (when rising bit-timing frequency) either the reduction of noise interference in result of application of the usual computer cooling methods (for instance, by way of cooling fan). CERATOM® technology facilitate the production of cooling devices for small size PC processors that include aluminum heat conduit directly contacting the subject processor. There is a realistic possibility to modify processor cooling system installed on mother board inside computer system block thus avoiding the problem of cooling individual components of system block (i.e. to prevent the increase of overall computer temperature resulting in the long run to overheating the entire system).
Another one important problem is the removal of parasitic heat emitted by video card and processor beyond the limits of system block. To solve this problem TERMIONA offers application of the relevant system designed according to modular approach. On the rear wall of system block is installed heat discharge system whereas inside computer are laid pipes with liquid heat carrier that cools hot side of the subject thermoelectric system; as regards the cold temperature heat conduit it is located directly on the active heat emission components. Therefore the emitted parasitic heat is removed from system, and the inner space of system block is not heated.
The other heat emitting component of system block is represented by video card that is in charge of creating computer display picture. When performing modeling or designing tasks in course of running engineering computer programs proper functioning video card is very important because in this case the system block may simultaneously provide operation of several monitors. Cooling unit produced by TERMIONA may be connected to 2, 4 and even 8 thermoelectric stabilizers located directly on processor either on the assembly that emit heat inside the subject computer system block.
