EXPERIMENTAL STUDIES OF A THERMOELECTRIC DEVICE FOR COOLING DISCRETE ELECTRIC RADIO ELEMENTS
Annotation
A device is developed for cooling discrete electrical radio elements (DERE). The sources of cold in the device are standard thermoelectric modules (TEMs), which form two sections with the main and additional heat exchange systems. An experimental stand is described, and results of full-scale tests of the device are presented. Graphs of temperature changes over time at various points of the thermoelectric device (TED) structure - the DERE simulator for a set of values of the TEM supply current and the power of the DERE simulator are obtained experimentally. It is determined that the developed thermal power plant can use TEM of the DRIFT-1.5 type produced by Cryotherm (St. Petersburg). It is been found that when using this type of thermal modules, the temperature of the DERE can be reduced to 272 K at a power current close to the optimal (5 A), while the time to enter the mode is 90 s. The discrepancy between experimental and calculated data is estimated to be no more than 10 %.
Keywords
Постоянный URL
Articles in current issue
- ADAPTIVE OBSERVER OF STATE VARIABLES OF A NONLINEAR NONSTATIONARY SYSTEM WITH UNKNOWN CONSTANT PARAMETERS
- CONSTRUCTION OF AN ADJUSTABLE AUTONOMOUS STRAPDOWN INERTIAL VERTICAL GYRO
- DETERMINING THE CLUSTER SIZE AND THE NUMBER OF REPLICAS OF HIGHLY LOADED INFORMATION SYSTEMS
- MODELING SHOCK-FRICTION INTERACTION OF THE FOOT WITH THE SUPPORTING SURFACE USING THE BASIS OF GENERALIZED HERMITE FUNCTIONS
- GRAPHICAL-ANALYTICAL METHOD FOR OPTIMAL SYNTHESIS OF PENDULUM CORRECTION CONTOUR OF VERTICAL GYROS
- DIGITAL OPTOELECTRONIC MEASURING DEVICE FOR MONITORING LARGE-SIZED SHELLS OF REVOLUTION
- METHOD FOR OVERALL CALCULATION OF AN INTEGRAL-FIELD MIRROR MODULE
- SPATIAL MICRO-SCANNING OF PLANE-PARALLEL GLASS PLATE SURFACE BY THE INTERFERENCE METHOD
- METHOD FOR DETECTING A SMALL AMOUNT OF OIL CONTAMINANTS IN A LIQUID USING LASER FLUORESCENCE TECHNOLOGY