Retrofit damper system with optimized power management

What is claimed is: 1. A damper system configured for installation in ductwork including a duct configured to supply air through a register boot to a register vent, the damper system comprising: a damper assembly configured to be disposed within the duct, the damper assembly including a damper that is movable between a closed end position, an open end position, and a plurality of intermediate positions between the closed end position and the open end position; a control module configured to be operably coupled to the damper assembly, the control module comprising circuitry configured to regulate operation of the damper assembly; a power supply operably coupled to the control module; and a transceiver operably coupled with the control module; the control module further configured to monitor a remaining energy level of the power supply, the control module further configured to transmit a first low battery message via the transceiver when the remaining energy level drops to a first energy threshold, and the control module further configured to transmit a second low battery message via the transceiver and to instruct the damper assembly to move to a designated intermediate position when the remaining energy level drops to a second energy threshold lower than the first energy threshold, wherein the designated intermediate position is a calculated value that is based on a history of damper positions over a period of time ending when the energy level dropped to or below the second energy threshold. 2. The damper system of claim 1 , wherein the control module is further configured to stop transmitting a low battery message via the transceiver when the remaining energy level drops to a third energy threshold lower than the second energy threshold. 3. The damper system of claim 2 , wherein the control module is further configured to stop listening for transmitted messages when the remaining energy level drops to the third energy threshold. 4. The damper system of claim 2 , wherein the third energy threshold is a value above a value at which an alkaline battery begins to outgas. 5. The damper system of claim 1 , wherein the control module is configured to receive one or more control commands from a remote building controller via the transceiver, and to regulate operation of the damper assembly based at least in part on the one or more control commands. 6. The damper system of claim 5 , wherein the control module is configured to regulate operation of the damper assembly by controlling a position of the damper, and to change the position of the damper less frequently when the remaining energy level is less than the first energy threshold than when the remaining energy level is greater than the first energy threshold in order to reduce power consumption by the damper assembly. 7. The damper system of claim 5 , wherein the control module is configured to regulate operation of the damper assembly by controlling a position of the damper, and to not change the position of the damper when the received control command instructs a position change from a current position that is less than a position change threshold. 8. The damper assembly of claim 5 , wherein the damper system further comprises one or more other damper assemblies designated as being in a common HVAC zone as the damper assembly and have a remaining energy level that is above the first energy threshold, wherein when the remaining energy level of the damper assembly drops below the first energy threshold, the damper system attempts to control one or more environmental conditions in the common HVAC zone by regulating the operation of one or more of the other damper assemblies that have a remaining energy level that is above the first energy threshold in order to reduce power consumption by the damper assembly. 9. The damper system of claim 1 , wherein the power supply is disposed within a power supply housing remote from the control module and operably coupled to the control module via a power cable. 10. The damper system of claim 1 , wherein the control module includes a control module housing that is configured to be secured remote from the damper assembly at a position behind the register vent and is configured to be secured to the register boot when the damper assembly is deployed in the duct. 11. The damper system of claim 1 , wherein the control module is further configured to revert to a first mode of operation as existed before the first energy threshold was reached once a detected energy level indicates that the power supply includes a new battery. 12. A damper system configured for installation in ductwork including a duct configured to supply air through a register boot to a register vent, the damper system comprising: a damper assembly configured to be disposed within the duct, the damper assembly including a damper that is movable between a closed end position, an open end position, and a plurality of intermediate positions between the closed end position and the open end position; a control module configured to be operably coupled to the damper assembly, the control module comprising circuitry configured to regulate operation of the damper assembly; a power supply operably coupled to the control module; and a transceiver operably coupled with the control module; the control module further configured to monitor a remaining energy level of the power supply, the control module further configured to transmit a first low battery message via the transceiver when the remaining energy level drops to a first energy threshold, the control module further configured to transmit a second low battery message via the transceiver and to instruct the damper assembly to move to a designated intermediate position when the remaining energy level drops to a second energy threshold lower than the first energy threshold, and the control module further configured to stop transmitting a low battery message via the transceiver when the remaining energy level drops to a third energy threshold lower than the second energy threshold, wherein the third energy threshold is a value above a value at which an alkaline battery begins to outgas. 13. The damper system of claim 12 , wherein the control module is further configured to stop listening for transmitted messages when the remaining energy level drops to the third energy threshold. 14. The damper system of claim 12 , wherein the control module is configured to receive one or more control commands from a remote building controller via the transceiver, and to regulate operation of the damper assembly based at least in part on the one or more control commands. 15. The damper system of claim 14 , wherein the control module is configured to regulate operation of the damper assembly by controlling a position of the damper, and to change the position of the damper less frequently when the remaining energy level is less than the first energy threshold than when the remaining energy level is greater than the first energy threshold in order to reduce power consumption by the damper assembly. 16. The damper system of claim 14 , wherein the control module is configured to regulate operation of the damper assembly by controlling a position of the damper, and to not change the position of the damper when the received control command instructs a position change from a current position that is less than a position change threshold. 17. The damper assembly of claim 14 , wherein the damper system further comprises one or more other damper assemblies designated as being in a common HVAC zone as the damper assembly an