Calibration and use of mechanical relay at zero cross

What is claimed is: 1. A method of calibrating and operating a relay device for switching AC signals through a load, wherein the method accounts for relay switching delay that changes with relay age and temperature, the method comprising: measuring relay switching delays for two or more relays at a plurality of temperatures; deriving a master polynomial as a best fit to the delays as a function of the temperatures, the master polynomial including variables for temperature, x, and delay, y, and a constant, C, for a y-intercept of the master polynomial; coupling a first relay device to a calibration circuit; measuring a calibration temperature for the first relay device; instructing a relay of the first relay device to switch, and identifying a first time of the instructing; monitoring a signal through the relay to determine a second time when the relay closes; calculating a calibration delay as a time between the second time and the first time; inserting the calibration delay and the calibration temperature into the master polynomial and solving for the constant, C, for the y-intercept to give a use polynomial having the variables, x and y, for temperature and delay; wherein the first relay device is configured for: installation and coupling in series with a load and an AC mains; receiving an instruction to switch the relay; measuring a use temperature; inserting the use temperature into the use polynomial and solving for the delay; detecting a first zero crossing of an AC signal from the AC mains passing through the first relay device; determining a frequency of the AC signal; and switching the relay at a subsequent zero crossing minus the delay, the subsequent zero crossing determined based on a time of the first zero crossing and the frequency of the AC signal. 2. The method of claim 1 , wherein the first inserting and the first solving are performed via a processor of the first relay device. 3. The method of claim 1 , wherein the first inserting and the first solving are performed via a processor of the calibration circuit. 4. The method of claim 1 , wherein the calibration circuit is moved to a second relay device to separately calibrate the second relay device. 5. The method of claim 4 , wherein the calibration circuit is only coupled to the first and second relay devices during a calibration phase. 6. The method of claim 1 , wherein the relay is a mechanical relay. 7. A non-transitory, tangible computer readable storage medium, encoded with processor readable instructions to perform a method for calibrating and operating a relay device for switching AC signals through a load, wherein the method accounts for relay switching delay that changes with relay age and temperature, the method comprising: measuring relay switching delays for two or more relays at a plurality of temperatures; deriving a master polynomial as a best fit to the relay switching delays as a function of the plurality of temperatures, the master polynomial including variables for temperature, x, and delay, y, and a constant, C, for a y-intercept of the master polynomial; coupling a first relay device to a calibration circuit; measuring a calibration temperature for the first relay device; instructing a relay of the first relay device to switch, and identifying a first time of the instructing; monitoring a signal through the relay to determine a second time when the relay closes; calculating a calibration delay as a time between the second time and the first time; inserting the calibration delay and the calibration temperature into the master polynomial and solving for the constant, C, for the y-intercept to give a use polynomial having the variables, x and y, for temperature and delay; wherein the first relay device is configured for: installation and coupling in series with a load and an AC mains; receiving an instruction to switch the relay; measuring a use temperature; inserting the use temperature into the use polynomial and solving for the delay; detecting a first zero crossing of an AC signal from the AC mains passing through the first relay device; determining a frequency of the AC signal; and switching the relay at a subsequent zero crossing minus the delay, the subsequent zero crossing determined based on a time of the first zero crossing and the frequency of the AC signal. 8. The non-transitory, tangible computer readable storage medium of claim 7 , wherein the first inserting and the first solving are performed via a processor of the first relay device. 9. The non-transitory, tangible computer readable storage medium of claim 7 , wherein the first inserting and the first solving are performed via a processor of the calibration circuit. 10. The non-transitory, tangible computer readable storage medium of claim 7 , wherein the calibration circuit is moved to a second relay device to separately calibrate the second relay device. 11. The non-transitory, tangible computer readable storage medium of claim 10 , wherein the calibration circuit is only coupled to the first and second relay devices during a calibration phase. 12. The method of claim 7 , wherein the relay is a mechanical relay.