Smart grid interface relay and breaker

What is claimed is: 1. A controllable main breaker, comprising: a main breaker sized to fit within an existing panel slot of an electrical panel, wherein the main breaker comprises a trigger to open the main breaker in response to a thermal fault or an overcurrent condition; a controllable actuator that controllably opens the main breaker; and a microcontroller configured to control the controllable actuator, wherein prior to commanding closing of the main breaker, the microcontroller is configured to facilitate synchronization between an onsite power source and a grid. 2. The controllable main breaker of claim 1 , wherein the controllable actuator comprises a solenoid that, when triggered, mechanically opens the main breaker. 3. The controllable main breaker of claim 1 , further comprising a motor configured to close the main breaker. 4. The controllable main breaker of claim 3 , further comprising an electrical, mechanical, or electromechanical interlock that is configured to prevent the motor from closing the main breaker in the event that the main breaker is determined to have been opened due to one of the thermal fault or the overcurrent condition. 5. The controllable main breaker of claim 1 , wherein prior to commanding opening of the main breaker, the microcontroller is configured to determine that the onsite power source is capable of forming a microgrid. 6. The controllable main breaker of claim 1 , further comprising a set of sensors, wherein the set of sensors is configured to measure electrical characteristics of the grid, and wherein the microcontroller facilitates synchronization between the onsite power source and the grid at least in part by providing measured electrical characteristics of the grid to the onsite power source. 7. The controllable main breaker of claim 6 , wherein the microcontroller commands closing of the main breaker based at least in part on a determination that the onsite power source is synchronized to the grid. 8. The controllable main breaker of claim 1 , further comprising a communications interface, wherein the controllable main breaker is configured to communicate with the onsite power source via the communications interface. 9. The controllable main breaker of claim 8 , wherein the onsite power source that the controllable main breaker is configured to communicate with comprises an inverter. 10. The controllable main breaker of claim 9 , wherein status information is communicated between the inverter and the controllable main breaker. 11. The controllable main breaker of claim 1 , further comprising a battery. 12. The controllable main breaker of claim 11 , wherein the controllable main breaker is powered by the battery. 13. The controllable main breaker of claim 1 , wherein the controllable main breaker derives power from either a load side or a grid side of the controllable main breaker. 14. The controllable main breaker of claim 1 , wherein the controllable main breaker is in communication with an energy storage system (ESS). 15. The controllable main breaker of claim 14 , wherein the controllable main breaker is powered by the ESS. 16. The controllable main breaker of claim 14 , wherein the controllable main breaker is wirelessly paired with the ESS. 17. The controllable main breaker of claim 16 , wherein the controllable main breaker connects to a wireless network formed by the ESS. 18. The controllable main breaker of claim 1 , wherein when installed, the controllable main breaker boots into an open state. 19. The controllable main breaker of claim 1 , wherein an amperage rating of the controllable main breaker is configurable.