Load shed system

What is claimed is: 1. A load shed module configured to be connected in series between a power source and a load, the load shed module comprising: an input configured to receive a first electrical connection from the power source; an output configured to provide a second electrical connection for the load; a switch connected in series between the input and the output; a controller, the controller being operable to: determine whether the power source is a utility power source or an alternate power source as a function of the frequency of the AC voltage received at the input; and generate a signal to close the switch when the frequency of the AC voltage received at the input indicates that the power source is a utility power source; and a housing within which the controller and the switch are housed. 2. The load shed module of claim 1 , wherein the controller is further operable to keep the switch open when the frequency of the AC voltage received at the input indicates that the power source is an alternate power source. 3. The load shed module of claim 1 , wherein upon determining that the power source is an alternate power source, the controller is further operable to close the switch after a first delay period. 4. The load shed module of claim 3 , wherein upon closing the switch after the first delay period, the controller is further operable to open the switch if the frequency of the AC voltage received at the input from the alternate power source is below a frequency threshold. 5. The load shed module of claim 3 , wherein upon closing the switch after the first delay period, the controller is further operable to open the switch if the frequency of the AC voltage received at the input from the alternate power source is below a frequency threshold for a predefined duration. 6. The load shed module of claim 5 , wherein after opening the switch, the controller is further operable to close the switch again after a second delay period. 7. The load shed module of claim 3 , wherein the first delay period is a function of a priority level of the load shed module. 8. The load shed module of claim 1 , wherein the power source is determined to be a backup power source if the difference between a maximum detected frequency of the AC voltage and a minimum detected frequency of the AC voltage over a predefined duration is greater than a first threshold. 9. The load shed module of claim 1 , further comprising a manual lockout selector. 10. The load shed module of claim 1 , wherein the load shed module does not include signal wires connected to the load shed module. 11. A method of connecting a load to a power source in a power distribution system comprising the steps of: receiving a first electrical connection at an input of a load shed module from the power source; determining, using a controller of the load shed module, whether the power source is a utility power source or an alternate power source as a function of the frequency of the AC voltage received at the input; generating a signal with the controller to close a switch in the load shed module when the frequency of the AC voltage received at the input of the load shed module indicates that the power source is a utility power source, the switch being connected in series between the input of the load shed module and an output of the load shed module. 12. The method of claim 11 , further comprising keeping the switch open when the frequency of the AC voltage received at the input indicates that the power source is an alternate power source. 13. The method of claim 11 , wherein upon determining that the power source is an alternate power source, closing the switch after a first delay period. 14. The method of claim 13 , wherein the first delay period is a function of a priority level of the load shed module. 15. The method of claim 13 , wherein upon closing the switch after the first delay period, opening the switch if the frequency of the AC voltage received at the input from the alternate power source is below a frequency threshold. 16. The method of claim 15 , wherein after opening the switch, closing the switch again after a second delay period. 17. The method of claim 13 , wherein upon closing the switch after the first delay period, opening the switch if the frequency of the AC voltage received at the input from the alternate power source is below a frequency threshold for a predefined duration. 18. The method of claim 11 , wherein the power source is determined to be a backup power source if the difference between a maximum detected frequency of the AC voltage and a minimum detected frequency of the AC voltage over a predefined duration is greater than a first threshold. 19. The method of claim 11 , wherein the load shed module does not include signal wires connected to the load shed module. 20. The method of claim 11 , wherein the load shed module further comprises a manual lockout selector.