Smart circuit breaker, system including the same, and method of managing power

What is claimed is: 1. A smart circuit breaker comprising: a communication interface; separable contacts; a processing unit having a memory with a routine stored therein which, when executed by the processing unit causes the processing unit to: sense a power outage in an electrical grid; in response to sensing the power outage in the electrical grid, control a meter to open contacts to disconnect from the electrical grid; after controlling the meter to open contacts to disconnect from the electrical grid, sense power restoration to the electrical grid; in response to sensing power restoration to the electrical grid, control contacts corresponding to a secondary power source to open; in response to controlling contacts corresponding to the secondary power source to open, control the meter to close contacts to reconnect to the electrical grid; after controlling the meter to close contacts to reconnect to the electrical grid, sense that a frequency of power from the electrical grid matches a frequency of power from the secondary power source; and in response to sensing that the frequency of power from the electrical grid matches the frequency of power from the secondary power source, control the contacts corresponding to the secondary power source to close while contacts of the meter remain closed and connected to the electrical grid. 2. The smart circuit breaker of claim 1 , wherein the routine when executed by the processing unit further causes the processing unit to: wait a randomized amount of time before controlling the meter to close contacts to reconnect to the electrical grid. 3. The smart circuit breaker of claim 1 , wherein the routine when executed by the processing unit further causes the processing unit to: coordinate with other smart breakers to develop a reconnection scheme; and control the meter to close contacts to reconnect to the electrical grid at a time specified by the reconnection scheme. 4. The smart circuit breaker of claim 3 , wherein the reconnection scheme includes a priority list of the smart circuit breaker and other smart circuit breakers, and wherein the time specified by the reconnection scheme is based on the priority list. 5. The smart circuit breaker of claim 3 , wherein the reconnection scheme includes a randomized list of the smart circuit breaker and other smart circuit breakers, and wherein the time specified by the reconnection scheme is based on the randomized list. 6. The smart circuit breaker of claim 1 , wherein the routine when executed by the processing unit further causes the processing unit to: develop a load management scheme based on data associated with the secondary power source and one or more loads; and implement the load management scheme by causing one or more loads to be disconnected. 7. The smart circuit breaker of claim 1 , further comprising: a metering unit structured to meter power flowing through the smart circuit breaker. 8. The smart circuit breaker of claim 1 , wherein the separable contacts include: first separable contacts structured to trip open in response to a fault; and second separable contacts structured to selectively open and close. 9. The smart circuit breaker of claim 1 , wherein the communication interface is structured to communicate with one or more external devices. 10. A method of managing power with a smart circuit breaker, the method comprising: sensing a power outage in an electrical grid; in response to sensing the power outage in the electrical grid, controlling a meter to open contacts to disconnect from the electrical grid; after controlling the meter to open contacts to disconnect from the electrical grid, sensing power restoration to the electrical grid; in response to sensing power restoration to the electrical grid, controlling contacts corresponding to a secondary power source to open; in response to controlling contacts corresponding to the secondary power source to open, controlling the meter to close contacts to reconnect to the electrical grid; after controlling the meter to close contacts to reconnect to the electrical grid, sensing that a frequency of power from the electrical grid matches a frequency of power from the secondary power source; and in response to sensing that the frequency of power from the electrical grid matches the frequency of power from the secondary power source, controlling the contacts corresponding to the secondary power source to close, while contacts of the meter remain closed and connected to the electrical grid. 11. The method of claim 10 , further comprising: waiting a randomized amount of time before controlling the meter to close contacts to reconnect to the electrical grid. 12. The method of claim 10 , further comprising: coordinating with other smart breakers to develop a reconnection scheme; and controlling the meter to close contacts to reconnect to the electrical grid at a time specified by the reconnection scheme. 13. The method of claim 12 , wherein the reconnection scheme includes a priority list of the smart circuit breaker and other smart circuit breakers, and wherein the time specified by the reconnection scheme is based on the priority list. 14. The method of claim 12 , wherein the reconnection scheme includes a randomized list of the smart circuit breaker and other smart circuit breakers, and wherein the time specified by the reconnection scheme is based on the randomized list. 15. The method of claim 10 , further comprising: developing a load management scheme based on data associated with the secondary power source and one or more loads; and implementing the load management scheme by causing one or more loads to be disconnected. 16. A system comprising: a secondary power source; a meter having contacts operable to electrically connect and disconnect from an electrical grid; and a smart circuit breaker comprising: a communication interface; separable contacts; a processing unit having a memory with a routine stored therein which, when executed by the processing unit causes the processing unit to: sense a power outage in the electrical grid; in response to sensing the power outage in the electrical grid, control the meter to open the contacts to disconnect from the electrical grid; after controlling the meter to open contacts to disconnect from the electrical grid, sense power restoration to the electrical grid; in response to sensing power restoration to the electrical grid, control contacts corresponding to a secondary power source to open; in response to controlling contacts corresponding to the secondary power source to open, control the meter to close the contacts to reconnect to the electrical grid; after controlling the meter to close contacts to reconnect to the electrical grid, sense that a frequency of power from the electrical grid matches a frequency of power from the secondary power source; and in response to sensing that the frequency of power from the electrical grid matches the frequency of power from the secondary power source, control the contacts corresponding to the secondary power source to close while contacts of the meter remain closed and connected to the electrical grid. 17. The system of claim 16 , wherein the routine when executed by the processing unit further causes the processing unit to: wait a randomized amount of time before controlling the meter to close contacts to reconnect to the electrical grid. 18. The system of claim 16 , wherein the routine when executed by the processing unit further causes the processin