Synchronous temperature rate control for refrigeration with reduced energy consumption

The invention claimed is: 1. A method of operating a refrigerator appliance having a refrigeration compartment, a freezer compartment, a condenser, a compressor and an evaporator in thermal communication with the refrigeration and freezer compartments, comprising the steps: providing a valve system to direct or restrict flow of a refrigerant into the evaporator through one or both of a primary and a secondary refrigerant pressure reduction device arranged upstream from the evaporator; providing an evaporator fan in fluidic communication with the evaporator and a damper, wherein the damper is configured to selectively allow either flow of cool air directed by the evaporator fan to the refrigeration compartment, or to the freezer compartment; measuring a refrigeration compartment temperature in the refrigeration compartment as a function of time; measuring a freezer compartment temperature in the freezer compartment as a function of time; providing a freezer compartment and a refrigeration compartment set point temperature; providing a freezer compartment upper and lower threshold temperature respectively above and below the freezer compartment temperature set point; providing a refrigeration compartment upper and lower threshold temperature respectively above and below the freezer compartment temperature set point; and synchronizing cycles of cooling the freezer and refrigeration compartments to temperatures approximately equal to their respective compartment set point temperatures, wherein the cycles of cooling the compartments are alternated by operation of one or more of the compressor, the evaporator fan, the valve system and the damper, wherein a step of reducing the temperature in the freezer and refrigeration compartments comprises reducing the temperature in the refrigeration compartment during the cycles of cooling the freezer and refrigeration compartments at substantially the same time as the temperature in the freezer compartment reaches the freezer compartment lower threshold temperature, and reducing the temperature in the freezer compartment during the cycles of cooling the freezer and refrigeration compartments at substantially the same time as the temperature in the freezer compartment reaches the freezer compartment upper threshold temperature by operation of one or more of the compressor, the evaporator fan, the valve system and the damper, and further wherein the step of reducing the temperature in the freezer and refrigeration compartments further comprises controlling a rate of cooling in the freezer compartment such that the temperature in the freezer compartment during the cycles of cooling the freezer and refrigeration compartments reaches the freezer compartment lower threshold temperature at substantially the same time as the temperature in the refrigeration compartment reaches the refrigeration compartment upper threshold temperature by operation of one or more of the compressor, the evaporator fan, the valve system and the damper. 2. A method of operating a refrigerator appliance according to claim 1 , wherein the step of reducing the temperature in the freezer and refrigeration compartments further comprises controlling a rate of cooling in the refrigeration compartment such that the temperature in the freezer compartment during the cycles of cooling the freezer and refrigeration compartments reaches the freezer compartment lower threshold temperature at substantially the same time, or before the time, that the temperature in the refrigeration compartment reaches the refrigeration compartment upper threshold temperature by operation of one or more of the compressor, the evaporator fan, the valve system and the damper. 3. A method of operating a refrigerator appliance having a refrigeration compartment, a freezer compartment, a condenser, a compressor and an evaporator in thermal communication with the freezer compartment, comprising the steps: providing an evaporator fan in fluidic communication with the evaporator and a damper, wherein the damper is configured to selectively allow either flow of cool air directed by the evaporator fan to the refrigeration compartment, or to the freezer compartment; providing a freezer compartment upper and lower threshold temperature respectively above and below the freezer compartment temperature set point; providing a refrigeration compartment upper and lower threshold temperature respectively above and below the refrigeration compartment temperature set point; and measuring a refrigeration compartment temperature in the refrigeration compartment as a function of time; measuring a freezer compartment temperature in the freezer compartment as a function of time; providing a freezer compartment and a refrigeration compartment set point temperature; synchronizing cycles of cooling the freezer and refrigeration compartments to temperatures approximately equal to their respective compartment set point temperatures, wherein the cycles of cooling the compartments are alternated by operation of one or more of the compressor, the evaporator fan and the damper, wherein a step of reducing the temperature in the freezer and refrigeration compartments further comprises reducing the temperature in the refrigeration compartment during the cycles of cooling the freezer and refrigeration compartments at substantially the same time as the temperature in the freezer compartment reaches the freezer compartment lower threshold temperature, and reducing the temperature in the freezer compartment at substantially the same time as the temperature in the freezer compartment during the cycles of cooling the freezer and refrigeration compartments reaches the freezer compartment upper threshold temperature by operation of one or more of the compressor, the evaporator fan and the damper, and further wherein the step of reducing the temperature in the freezer and refrigeration compartments further comprises controlling a rate of cooling in the freezer compartment such that the temperature in the freezer compartment during the cycles of cooling the freezer and refrigeration compartments reaches the freezer compartment lower threshold temperature at substantially the same time as the temperature in the refrigeration compartment reaches the refrigeration compartment upper threshold temperature by operation of one or more of the compressor, the evaporator fan and the damper. 4. A method of operating a refrigerator appliance according to claim 3 , wherein the step of reducing the temperature in the freezer and refrigeration compartments further comprises controlling a rate of cooling in the refrigeration compartment such that the temperature in the freezer compartment during the cycles of cooling the freezer and refrigeration compartments reaches the freezer compartment lower threshold temperature at substantially the same time, or before the time, that the temperature in the refrigeration compartment reaches the refrigeration compartment upper threshold temperature by operation of one or more of the compressor, the evaporator fan and the damper. 5. A method of operating a refrigerator appliance having a refrigeration compartment, a freezer compartment, a freezer compartment fan, a refrigeration compartment fan, a condenser, a compressor, a freezer compartment evaporator in thermal communication with the freezer compartment, a refrigeration compartment evaporator in thermal communication with the refrigeration compartment, and a valve system configured to direct or restrict flow of the refrigerant to either or both of the evaporators, comprising the steps: measuring a refrigeration compartment temperature in the refrigeration compartment as a function of time; measuring a freezer compartment temperature in the freezer compartment as a function of time; providing a freezer compa