Electrically interlocked receptacles in power pedestals

The invention claimed is: 1. A power pedestal comprising: a plurality of receptacles that are configured to connect to external devices, the plurality of receptacles comprising a first receptacle and a second receptacle, wherein the first receptacle and the second receptacle are electrically interlocked with one another; a first circuit breaker connected to the first receptacle and a second circuit breaker connected to the second receptacle; and a shunt trip circuit that is configured to trip the first circuit breaker to disable power to the first receptacle of the power pedestal, responsive to the second circuit breaker associated with the second receptacle of the power pedestal being in an active state. 2. The power pedestal of claim 1 , further comprising: an auxiliary switch associated with the first circuit breaker corresponding to the first receptacle, wherein the auxiliary switch is configured to receive a status of the second circuit breaker corresponding to the second receptacle. 3. The power pedestal of claim 2 , wherein the shunt trip circuit is configured to trip the first circuit breaker to disable power to the first receptacle, responsive to the status of the second circuit breaker indicating that the second circuit breaker is enabled to supply power to the second receptacle. 4. The power pedestal of claim 2 , wherein the auxiliary switch comprises a first auxiliary switch, wherein the first auxiliary switch comprises an input terminal and first and second output terminals, wherein the input terminal of the first auxiliary switch is connected to a second auxiliary switch corresponding to the second receptacle to receive the status of the second circuit breaker, and wherein the first auxiliary switch is configured to cause the shunt trip circuit to place the first circuit breaker in the active state when the input terminal is connected to the first output terminal and is configured to cause the shunt trip circuit to place the first circuit breaker in an inactive state when the input terminal is connected to the second output terminal. 5. The power pedestal of claim 1 , wherein the shunt trip circuit is configured to trip the first circuit breaker responsive to a sum of a first power rating of the first receptacle and a second power rating of the second receptacle exceeding a threshold power rating for the power pedestal, when the second receptacle is supplying power to at least one of the external devices. 6. The power pedestal of claim 1 , wherein the second receptacle comprises a plurality of additional receptacles that correspond to a plurality of circuit breakers including the second circuit breaker, wherein the shunt trip circuit is configured to trip the first circuit breaker to an inactive state responsive to a sum of a first power rating of the first receptacle and a collective power rating of the plurality of additional receptacles exceeding a threshold power rating for the power pedestal, when the additional receptacles are supplying power to at least one of the external devices. 7. The power pedestal of claim 6 , wherein the plurality of additional receptacles are active at a same time, responsive to the collective power rating of the plurality of additional receptacles being below the threshold power rating for the power pedestal. 8. The power pedestal of claim 6 , wherein an overall power rating of the power pedestal is the greater of the first power rating of the first receptacle and the collective power rating of the plurality of additional receptacles. 9. The power pedestal of claim 1 , further comprising: a bus bar configured to supply power to the plurality of receptacles, wherein the bus bar comprises one or more power lines electrically connected to the first circuit breaker corresponding to the first receptacle and the second circuit breaker corresponding to the second receptacle, and wherein the bus bar is configured to be coupled to an external power source by one or more wires having respective wire gauges that are insufficient for carrying a load of a sum of power ratings of the plurality of receptacles. 10. A method of operating a power pedestal that comprises plurality of receptacles comprising a first receptacle and a second receptacle that are configured to supply power to external devices, the method comprising: tripping a first circuit breaker by a shunt trip circuit to disable power to the first receptacle of the power pedestal, responsive to a second circuit breaker associated with the second receptacle of the power pedestal being enabled to supply power to the second receptacle. 11. The method of claim 10 , further comprising: receiving, by an auxiliary switch associated with the shunt trip circuit, a status of the second circuit breaker associated with the second receptacle, wherein the status indicates when the second circuit breaker is enabled to supply power to the second receptacle. 12. The method of claim 11 , wherein the tripping the first circuit breaker by the shunt trip circuit comprises: tripping the first circuit breaker by the shunt trip circuit to disable power to the first receptacle, responsive to the status of the second circuit breaker indicating that the second circuit breaker is enabled to supply power to the second receptacle. 13. The method of claim 11 , wherein the auxiliary switch comprises a first auxiliary switch, wherein the first auxiliary switch comprises an input terminal and first and second output terminals, and wherein the input terminal of the first auxiliary switch is connected to a second auxiliary switch corresponding to the second receptacle to receive the status of the second circuit breaker, further comprising: switching the first auxiliary switch to the first output terminal or the second output terminal, based on the status of the second circuit breaker received at the input terminal; placing, by the shunt trip circuit, the first circuit breaker in an active state when the input terminal is connected to the first output terminal; and placing, by the shunt trip circuit, the first circuit breaker in an inactive state when the input terminal is connected to the second output terminal. 14. The method of claim 10 , wherein the tripping the first circuit breaker by the shunt trip circuit comprises: tripping the first circuit breaker by the shunt trip circuit, responsive to a sum of a first power rating of the first receptacle and a second power rating of the second receptacle exceeding a threshold power rating for the power pedestal, when the second receptacle is supplying power to at least one of the external devices. 15. The method of claim 10 , wherein the second receptacle comprises a plurality of additional receptacles that correspond to a plurality of circuit breakers, and wherein the tripping the first circuit breaker by the shunt trip circuit comprises: tripping the first circuit breaker by the shunt trip circuit to an inactive state responsive to a sum of a first power rating of the first receptacle and a collective power rating of the plurality of additional receptacles exceeding a threshold power rating for the power pedestal, when the additional receptacles are supplying power to at least one of the external devices. 16. The method of claim 15 , wherein the plurality of additional receptacles are active at a same time, responsive to the collective power rating of the plurality of additional receptacles being below the threshold power rating for the power pedestal. 17. The method of claim 15 , wherein an overall power rating of the power pedestal i