Refrigerated dryer power saving controls

What is claimed is: 1. A method comprising: operating a refrigerated compressed air dryer, the refrigerated compressed air dryer comprising: a refrigeration circuit including a compressor, a condenser, and an evaporator, and a compressed air circuit in thermal communication with the evaporator, the evaporator structured to cool compressed air flowing through the compressed air circuit; monitoring a flow condition of the compressed air in the compressed air circuit and a temperature condition of the evaporator with an electronic controller; determining the flow condition indicates no flow of compressed air and the temperature condition of the evaporator has reached a lower threshold; responsive to the determination that the flow condition indicates no flow of compressed air and the temperature condition of the evaporator has reached a lower threshold, deactivating the compressor with the electronic controller; determining the flow condition indicates flow of compressed air and/or the temperature condition of the evaporator reached an upper threshold; responsive to the determination that the flow condition indicates flow of compressed air and/or the temperature condition of the evaporator reached an upper threshold, reactivating the compressor with the electronic controller; determining the flow condition indicates no flow of compressed air and the temperature condition is above the lower threshold; and responsive to the determination that the flow condition indicates no flow of compressed air and the temperature condition is above the lower threshold, maintaining operation of the compressor. 2. The method of claim 1 , wherein the acts of deactivating and reactivating are repeated a plurality of times to minimize power consumption by the compressor while simultaneously maintaining the temperature condition of the evaporator below the upper threshold. 3. The method of claim 1 , further comprising: responsive to the determination that the flow condition indicates flow of compressed air and to the reactivation of the compressor with the electronic controller, determining the flow condition indicates no flow of compressed air and the temperature condition of the evaporator reached the lower threshold; and responsive to the determination that the flow condition indicates flow of compressed air and/or the temperature condition of the evaporated reached the lower threshold, deactivating the compressor with the electronic controller. 4. The method of claim 1 , further comprising: responsive to the determination that the temperature condition of the evaporator reached an upper threshold and to the reactivation of the compressor with the electronic controller, determining the temperature condition of the evaporator reached the lower threshold; responsive to the determination that the temperature condition of the evaporated reached the lower threshold, deactivating the compressor with the electronic controller. 5. The method of claim 1 , wherein the upper threshold is less than twenty degrees Celsius. 6. The method of claim 1 , wherein the lower threshold is about one degree Celsius. 7. The method of claim 1 , wherein the refrigerated compressed air dryer is structured as a non-cyclical refrigerated compressed air dryer that does not include a cooled mass structured to cool compressed air flowing through the compressed air circuit when the compressor is not operating. 8. The method of claim 1 , wherein the refrigeration circuit includes a bypass valve coupled to an outlet of the compressor, the method further including routing at least a portion of a refrigerant fluid from an outlet of the compressor to an inlet of the compressor. 9. The method of claim 8 , wherein routing at least a portion of a refrigerant fluid from an outlet of the compressor to an inlet of the compressor includes routing at least a portion of a refrigerant fluid from an outlet of the compressor to an inlet of the compressor upon a pressure of the refrigerant fluid downstream of the evaporator being below a predetermined pressure value. 10. A method of controlling a refrigerated dryer, the refrigerated dryer including a compressor in fluid communication with a heat exchanger, the heat exchanger in thermal communication with a compressed gas flow path, the method comprising: operating the compressor; monitoring information from a flow sensor, the flow sensor in communication with the compressed gas flow path; monitoring information from a temperature sensor in thermal communication with the heat exchanger; determining no flow of compressed gas through the compressed gas flow path based on the monitored information from the flow sensor; determining that the heat exchanger is at a first temperature that is at or below a lower limit based on the monitored information from the temperature sensor; responsive to the determination of no flow of compressed gas and the determination that the heat exchanger is at the first temperature that is at or below the lower limit, deactivating the compressor; determining that the heat exchanger is at a second temperature that is at or above an upper limit based on the monitored information from the temperature sensor; responsive to the determination that the heat exchanger is at the second temperature that is at or above the upper limit, reactivating the compressor; determining no flow of compressed gas through the compressed gas flow path based on the monitored information from the flow sensor and determining that the heat exchanger is at a temperature that is above the lower limit based on the monitored information from the temperature sensor; and responsive to the determination of no flow of compressed gas and the heat exchanger is at the temperature that is above the lower limit, maintaining operation of the compressor. 11. The method of claim 10 , further comprising: determining that the heat exchanger is at a temperature that is at or above the lower limit based on the monitored information from the temperature sensor; and responsive to the determination that the heat exchanger is at the temperature that is at or above the lower limit, operating the compressor. 12. The method of claim 10 , wherein the flow sensor is a flow switch. 13. The method of claim 10 , wherein the refrigerated dryer includes a controller structured to monitor the flow sensor and the temperature sensor and configured to selectively activate and deactivate the compressor in response to a change in the flow sensor and/or the temperature sensor. 14. The method of claim 10 , wherein the refrigerated dryer is devoid of a structure that cools compressed gas flowing through the compressed gas circuit when the compressor is not operating. 15. The method of claim 14 , wherein the compressed gas is compressed air.