Patent ID: 8789385
Filing Date: 2014-07-29
Classification: F25B,H05K

Abstract:
1. A method of facilitating dissipation of heat from at least one electronic component, the method comprising: providing a refrigerant loop configured for refrigerant to flow therethrough, the refrigerant facilitating dissipation of heat from the at least one electronic component; coupling a compressor in fluid communication with the refrigerant loop, wherein a first portion of the refrigerant loop resides upstream of a refrigerant inlet of the compressor, and a second portion of the refrigerant loop resides downstream of refrigerant outlet of the compressor; and disposing a controllable thermoelectric array in thermal communication with the refrigerant loop, the controllable thermoelectric array comprising at least one thermoelectric module, and being disposed with the first portion of the refrigerant loop at least partially in thermal contact with a first side of the thermoelectric array and the second portion of the refrigerant loop at least partially in thermal contact with a second side of the thermoelectric array, the controllable thermoelectric array being controlled to ensure that refrigerant in the refrigerant loop entering the compressor is in a superheated thermodynamic state by transferring heat from refrigerant passing through the second portion of the refrigerant loop to refrigerant passing through the first portion of the refrigerant loop; wherein the controllable thermoelectric array is controlled to apply an auxiliary heat load to refrigerant passing through the first portion of the refrigerant loop to ensure that refrigerant in the refrigerant loop entering the compressor is in a superheated thermodynamic state, and wherein the method further comprises providing a controller coupled to the controllable thermoelectric array for automatically controlling the auxiliary heat load applied by the thermoelectric array to refrigerant passing through the first portion, and a refrigerant temperature sensor and a refrigerant pressure sensor for monitoring a temperature and a pressure of refrigerant, respectively, within the refrigerant loop, and wherein the controller automatically adjusts the auxiliary heat load applied by the controllable thermoelectric array with reference to the monitored temperature of refrigerant and pressure of refrigerant within the refrigerant loop, and wherein the auxiliary heat load applied by the controllable thermoelectric array is automatically, incrementally increased responsive to refrigerant entering the compressor being superheated by less than a specified δT temperature threshold, and is automatically, incrementally decreased responsive to refrigerant entering the compressor being superheated by greater than a specified δT temperature threshold.