Load control system and method for regulating power supply to a thermostat

What is claimed is: 1. A system for controlling a load control relay (LCR) for a heating, ventilating, and air conditioning (HVAC) system, the system comprising a controller programmed to: measure a thermostat delay time of a thermostat of the HVAC system, the thermostat delay time comprising an amount of time between restoring the LCR and receiving power in a load control line coupled between the thermostat and a load of the HVAC system; calculate a new cycle shed time and a new cycle restore time based on the measured thermostat delay time, wherein the new cycle shed time and the new cycle restore time compensate for the thermostat delay time; and control the LCR according to the new cycle shed time and new cycle restore time. 2. The system of claim 1 wherein the controller is further programmed to: receive a control command for controlling the LCR, the control command comprising a shed percentage and one of a cycle period and a control duration; if the control command includes a control duration, determine a cycle period based on the control duration; calculate an initial cycle shed time and an initial cycle restore time based on the cycle period and the shed percentage; and measure the thermostat delay time during the initial cycle restore time. 3. The system of claim 2 wherein, if the initial cycle shed time is greater than an average thermostat delay time, the controller is programmed to: calculate the new cycle shed time by subtracting the average thermostat delay time from the initial cycle shed time; and calculate the new cycle restore time by adding the average thermostat delay time to the initial cycle restore time. 4. The system of claim 3 wherein, if the initial cycle shed time is less than or equal to the average thermostat delay time, the controller is programmed to: set the new cycle shed time to a predefined cycle shed time; and set the new cycle restore time to the cycle period minus the predefined cycle shed time. 5. The system of claim 1 wherein the controller is programmed to sense the thermostat delay time of the thermostat by: starting a thermostat delay timer simultaneously with restoring the LCR; sensing if the load control line is active; and if the load control line is active, stopping the thermostat delay timer. 6. The system of claim 5 wherein the controller is further programmed to sense the thermostat delay time of the thermostat by: if the load control line is not active: determining whether any time remains in a current cycle for controlling the LCR; if time remains in the current cycle, continuing to sense if the load control line is active; and if no time remains in the current cycle: ceasing to sense if the load control line is active; determining if any cycles remain in a current control command for controlling the LCR; if cycles remain in the current control command, continue controlling the LCR; and if no cycles remain in the current control command, ceasing to control the LCR. 7. The system of claim 1 wherein, if the thermostat delay time is greater than a maximum control adjustment time, the controller is programmed to calculate the new cycle shed time and the new cycle restore time based on an existing average thermostat delay time, the existing average thermostat delay time comprising an average amount of time between restoring the LCR and receiving power in the load control line previous to the thermostat delay time. 8. The system of claim 1 wherein the controller is further programmed to: store the thermostat delay time as part of an average thermostat delay time; and calculate the new cycle shed time and the new cycle restore time based on the average thermostat delay time. 9. The system of claim 8 wherein the controller is programmed to store the thermostat delay time as part of the average thermostat delay time by: temporarily storing an existing average thermostat delay time; calculating a potential average thermostat delay time based on the existing average thermostat delay time and the thermostat delay time; if the potential average thermostat delay time is within a time threshold different from the existing average thermostat delay time, setting the average thermostat delay time to the potential average thermostat delay time; and if the potential average thermostat delay time is different from the existing average thermostat delay time by an amount of time beyond the time threshold, setting the average thermostat delay time to one of the existing average thermostat delay time minus the time threshold and the existing average thermostat delay time plus the time threshold. 10. A method of controlling a load control relay (LCR) for a heating, ventilating, and air conditioning (HVAC) system having a thermostat and a load control line coupling the thermostat to a load, the method comprising: measuring a thermostat-induced delay between a time the LCR is restored and a time power is received on the load control line; defining a compensation time to offset the thermostat-induced delay; calculating a new cycle shed time and a new cycle restore time based on the compensation time; and controlling the LCR according to the new cycle shed time and the new cycle restore time. 11. The method of claim 10 wherein defining the compensation time comprises: storing an existing average thermostat-induced delay between a time the LCR is restored and a time power is received on the load control line; calculating a potential compensation time based on the thermostat-induced delay and the existing average thermostat-induced delay; if the potential compensation time is within a time threshold of the existing average thermostat-induced delay, setting the compensation time to the potential compensation time; if the potential compensation time exceeds the existing average thermostat-induced delay by more than the time threshold, setting the compensation time to the existing average thermostat-induced delay plus the time threshold; and if the potential compensation time is below the existing average thermostat-induced delay by more than the time threshold, setting the compensation time to the existing average thermostat-induced delay minus the time threshold. 12. The method of claim 11 further comprising calculating the potential compensation time as a weighted average of the thermostat-induced delay and the existing average thermostat-induced delay. 13. The method of claim 10 wherein calculating the new cycle shed time comprises subtracting the compensation time from an initial cycle shed time of a control command for controlling the LCR; and wherein calculating the new cycle restore time comprises adding the compensation time to an initial cycle restore time of the control command. 14. The method of claim 10 further comprising comparing the thermostat-induced delay to a maximum control adjustment time; and wherein, if the thermostat-induced delay is greater than the maximum control adjustment time, defining the compensation time comprises setting the compensation time to an existing average thermostat-induced delay, the existing average thermostat-induced delay comprising a time between when the LCR is restored and power is received on the load control line. 15. The method of claim 10 further comprising ceasing control of the LCR if the load control line stays inactive for a predetermined time, no time remains in a cycle period of a current cycle for controlling the LCR, and no cycles remain in a control command for controlling the LCR. 16. A load control system for selectively supplying power to a t