Microgrid system structured to detect overload conditions and take corrective actions relating thereto

What is claimed is: 1. A distribution manager, comprising: a main bus; a first configurable circuit interrupter structured to couple the distribution manager to an inter-microgrid connection system; and a second circuit interrupter coupled to the main bus, the second circuit interrupter being structured to be coupled to a load; wherein the distribution manager is structured and configured to detect an overload condition on the inter-microgrid connection system and in response thereto (i) request to bring an offline distributed source coupled to the main bus online, (ii) if an offline distributed source coupled to the main bus cannot be brought online, request to shed the load, and (iii) if the load cannot be shed, cause the first configurable circuit interrupter to be de-rated. 2. The distribution manager according to claim 1 , further comprising a third circuit interrupter structured to couple the distribution manager to the inter-microgrid connection system, wherein the third circuit interrupter is structured and configured to detect the overload condition and in response thereto (i) attempt to bring an offline distributed source coupled to the main bus online, (ii) if an offline distributed source coupled to the main bus cannot be brought online, attempt to shed the load, and (iii) if the load cannot be shed, cause the first configurable circuit interrupter to be de-rated by adjusting one or more functional trip settings of the first configurable circuit interrupter. 3. The distribution manager according to claim 2 , wherein the third circuit interrupter is structured and configured to detect the overload condition and in response thereto (i) attempt to bring an offline distributed source coupled to the main bus online by generating one or more first signals and providing the one or more first signals to a circuit interrupter coupled to the offline distributed source, (ii) if an offline distributed source coupled to the main bus cannot be brought online, attempt to shed the load by generating one or more second signals and providing the one or more second signals to the second circuit interrupter, and (iii) if the load cannot be shed, cause the first configurable circuit interrupter to be de-rated by adjusting one or more functional trip settings of the first configurable circuit interrupter by generating one or more third signals and providing the one or more third signals to the first configurable circuit interrupter. 4. The distribution manager according to claim 3 , wherein the one or more first signals, the one or more second signals and the one or more third signals are each power line carrier signals. 5. The distribution manager according to claim 1 , wherein the inter-microgrid connection system is a ring bus. 6. The distribution manager according to claim 1 , wherein the first configurable circuit interrupter has a temperature input and is structured to provide temperature compensation based on the temperature input. 7. The distribution manager according to claim 1 , wherein the first configurable circuit interrupter has a communications interface and a processor that is structured to transmit through the communications interface information regarding a percent current present on the main bus and an indication of an overload condition and impending trip. 8. The distribution manager according to claim 1 , wherein the distribution manager is further structured and configured to send a signal to a downstream distribution manager requesting the distribution manager to take action to eliminate the overcurrent condition. 9. The distribution manager according to claim 1 , wherein the distribution manager is structured and configured to detect the overload condition and in response thereto, if the load cannot be shed, (i) cause the first configurable circuit interrupter to be de-rated by adjusting one or more functional trip settings thereof, or (ii) cause the second circuit interrupter to be de-rated by adjusting one or more functional trip settings thereof. 10. A microgrid system employing the distribution manager, the inter-microgrid connection system, the offline distributed source and the load of claim 1 . 11. A method of operating a microgrid system, comprising: detecting an overload condition in a distribution manager of the microgrid system; in response to detecting the overload condition, requesting to bring an offline distributed source coupled to the distribution manager online; if an offline distributed source coupled to the distribution manager cannot be brought online, requesting to shed a non-critical load coupled to the distribution manager; and if a non-critical load cannot be shed, causing a circuit interrupter forming part of the distribution manager to be de-rated. 12. The method according to claim 11 , wherein: (i) the attempting to bring an offline distributed source online includes generating one or more first signals and providing the one or more first signals to a circuit breaker coupled to the offline distributed source, (ii) the attempting to shed the non-critical load includes generating one or more second signals and providing the one or more second signals to a circuit breaker coupled to the non-critical load , and (iii) the causing the circuit interrupter to be de-rated includes generating one or more third signals and providing the one or more third signals to the circuit interrupter. 13. The method according to claim 12 , wherein the one or more first signals, the one or more second signals and the one or more third signals are each power line carrier signals. 14. The method according to claim 11 , wherein the detecting, the attempting to bring an offline distributed source coupled to the distribution manager online, the attempting to shed and the causing the circuit interrupter to be de-rated are performed by a second circuit interrupter forming part of the distribution manager. 15. The method according to claim 11 , wherein the overload condition is on an inter-microgrid connection system. 16. The method according to claim 15 , wherein the inter-microgrid connection system is a ring bus.