A power generation/distribution system includes a RAM air turbine (RAT) generator and an emergency integrated control center (EICC) that selectively applies either primary power provided by a primary power source or emergency power developed by the RAT generator to an alternating current essential b
A power generation/distribution system includes a RAM air turbine (RAT) generator and an emergency integrated control center (EICC) that selectively applies either primary power provided by a primary power source or emergency power developed by the RAT generator to an alternating current essential bus (AC ESS bus) for distribution to one or more essential loads. The EICC monitors the primary power and in response to a loss of primary power selectively disables the supply of power from the AC ESS bus to the essential loads and manages subsequent loading of the RAT generator by the essential loads.
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1. A power generation/distribution system comprising: a primary power source configured to generate primary electrical power;a RAM air turbine (RAT) generator configured to generate emergency electrical power when deployed into an airstream;an emergency integrated control center (EICC) configured to
1. A power generation/distribution system comprising: a primary power source configured to generate primary electrical power;a RAM air turbine (RAT) generator configured to generate emergency electrical power when deployed into an airstream;an emergency integrated control center (EICC) configured to transition a plurality of electrical loads from the primary electrical power to the emergency electrical power, the plurality of electrical loads including one or more essential loads and one or more emergency loads, each load connected directly or indirectly to an alternating current essential bus (AC ESS bus), the EICC selectively applying either primary electrical power or emergency electrical power to the AC ESS bus for selective distribution to the one or more essential loads and the one or more emergency loads;wherein the EICC is configured to monitor the primary electrical power and in response to a detected loss of primary electrical power selectively disables a supply of primary electrical power to the one or more essential loads and the one or more emergency loads, and the EICC is configured to manage subsequent loading of the RAT generator by the one or more essential loads and the one or more emergency loads; andwherein the EICC comprises: a RAM air turbine generator line contactor (RAT GLC) that provides primary power to the AC ESS bus when de-energized and emergency power to the AC ESS bus when energized, anda first time delay relay circuit activated by energizing of the RAT GLC, wherein activating the first time delay relay circuit energizes the first time delay relay circuit after a first time delay;wherein energizing of the first time delay circuit allows distribution of emergency electrical power from the AC ESS bus to a subset of the one or more essential loads which are connected indirectly to the AC ESS bus. 2. The power generation/distribution system of claim 1, wherein the one or more essential loads includes at least one alternating current (AC) essential load connected directly to the AC ESS bus such that the at least one AC essential load receives emergency electrical power immediately following energizing of the RAT GLC. 3. The power generation/distribution apparatus of claim 1, wherein the subset of the one or more essential loads not connected directly to the AC ESS bus includes at least one direct current (DC) essential load. 4. The power generation/distribution system of claim 1, wherein de-energizing at least one of a first relay circuit and a second relay circuit prevents load commands originating external to the EICC from dictating the distribution of emergency power provided by the RAT generator to the one or more emergency loads. 5. The power generation/distribution system of claim 1, wherein the first time delay relay circuit is un-energized during normal operations. 6. The power generation/distribution system of claim 1, wherein the RAT GLC is selectively energized by a generator control unit (GCU) associated with the RAT in response to the RAT generator reaching an established speed and/or voltage threshold level. 7. The power generation/distribution system of claim 1, wherein the EICC further comprises an input for receiving a test command provided to the at least one time delay relay circuit to test the first time delay. 8. The power generation/distribution system of claim 1, wherein the EICC further comprises: a second time delay relay circuit activated by energizing of the RAT GLC;wherein activating the second time delay relay circuit energizes the second time delay relay circuit after a second time delay; andwherein energizing of the second time delay circuit allows distribution of emergency electrical power from the AC ESS bus to the one or more emergency loads. 9. The power generation/distribution system of claim 3, wherein the EICC further comprises: a transformer rectifier unit connected between the AC ESS bus and the at least one DC essential load. 10. The power generation/distribution system of claim 3, wherein the EICC further comprises: a direct current essential bus (DC ESS bus) connected to the AC ESS bus and the at least one DC essential load; anda battery connected to the DC ESS bus configured to power the at least one DC essential load after the loss of primary power and before expiration of the first time delay. 11. The power generation/distribution system of claim 8, wherein the first time delay is less than the second time delay. 12. An emergency integrated control center (EICC) comprising: an alternating current essential bus (AC ESS bus) adapted to receive a first connection to one or more essential loads and a second separate connection to one or more emergency loads, the one or more essential loads including at least one alternating current (AC) essential load; anda RAM air turbine generator line contactor (RAT GLC) controlled to supply primary electrical power to the AC ESS bus during normal operation, supply emergency power provided to the AC ESS bus during emergency operation, and upon detecting a loss of primary electrical power, autonomously transition the one or more essential loads to emergency power provided to the AC ESS bus prior to transitioning the one or more emergency loads to emergency power without stalling the RAT generator;wherein the AC ESS bus is adapted to receive the first connection directly to the at least one AC essential load such that the at least one AC essential load receives emergency electrical power immediately following energizing of the RAT GLC; andwherein energizing the RAT GLC enforces a default speed command on the essential loads by disconnecting a speed command provided to the essential loads, the speed command originating from a location external to the EICC. 13. The EICC of claim 12, further comprising: at least one time delay relay circuit activated by energizing of the RAT GLC, the at least one time delay relay circuit including at least one of: a first time delay relay circuit energized after a first time delay calculated from when the emergency power has first been provided to the AC ESS bus by the RAT GLC, such that energizing the first time delay relay circuit causes emergency power to be distributed, after the first time delay, from the AC ESS bus to a third connection for at least one essential load not connected directly to the AC ESS bus; anda second time delay relay circuit energized after a second time delay calculated from when the emergency power has first been provided to the AC ESS bus by the RAT GLC, such that energizing the second time delay relay circuit causes emergency power to be distributed, after the second time delay, from the AC ESS bus to the second connection for the AC emergency loads. 14. The EICC of claim 12, further comprising a test command input connected to selectively energize at least one time delay relay circuit to test the respective at least one time delay provided by the at least one time delay relay circuit. 15. The EICC of claim 13, further comprising: a relay circuit that is in an energized state during normal operation and in a de-energized state during emergency operation; whereinin the energized state, the relay circuit is adapted to provide load commands originating from a location external to the EICC from controlling the distribution of power from the AC ESS bus to the second connection for the AC emergency loads; andin the de-energized state, the relay circuit is adapted to prevent the load commands originating from the location external to the EICC from controlling the distribution of power from the AC ESS bus to the one or more emergency loads. 16. A power generation/distribution system comprising: a primary power source configured to generate primary electrical power;a RAM air turbine (RAT) generator configured to generate emergency electrical power when deployed into an airstream;an emergency integrated control center (EICC) configured to transition a plurality of electrical loads from the primary electrical power to the emergency electrical power, the plurality of electrical loads including one or more essential loads and one or more emergency loads, each load connected directly or indirectly to an alternating current essential bus (AC ESS bus), the EICC selectively applying either primary electrical power or emergency electrical power to the AC ESS bus for selective distribution to the one or more essential loads and the one or more emergency loads;wherein the EICC is configured to monitor the primary electrical power and in response to a detected loss of primary electrical power selectively disables a supply of primary electrical power to the one or more essential loads and the one or more emergency loads, and the EICC is configured to manage subsequent loading of the RAT generator by the one or more essential loads and the one or more emergency loads; andwherein the EICC comprises: a RAM air turbine generator line contactor (RAT GLC) that provides primary power to the AC ESS bus when de-energized and emergency power to the AC ESS bus when energized, anda first time delay relay circuit activated by energizing of the RAT GLC, wherein activating the first time delay relay circuit energizes the first time delay relay circuit after a first time delay;wherein energizing of the first time delay circuit allows distribution of emergency electrical power from the AC ESS bus to the one or more emergency loads. 17. The power generation/distribution system of claim 16, wherein energizing the RAT GLC activates a relay configured to enforce a default speed command on the one or more emergency loads by disconnecting a speed command originating external to the EICC from being provided to the one or more emergency loads at least until expiration of the first time delay. 18. The power generation/distribution system of claim 16, wherein the one or more essential loads includes at least one alternating current (AC) essential load connected directly to the AC ESS bus such that the at least one AC essential load receives emergency electrical power immediately following energizing of the RAT GLC. 19. The power generation/distribution system of claim 16, wherein de-energizing at least one of a first relay circuit and a second relay circuit prevents load commands originating external to the EICC from dictating the distribution of emergency power provided by the RAT generator to the one or more emergency loads. 20. The power generation/distribution system of claim 16, wherein the first time delay relay circuit is un-energized during normal operations. 21. The power generation/distribution system of claim 16, wherein the RAT GLC is selectively energized by a generator control unit (GCU) associated with the RAT in response to the RAT generator reaching an established speed and/or voltage threshold level. 22. The power generation/distribution system of claim 16, wherein the EICC further comprises an input for receiving a test command provided to the at least one time delay relay circuit to test the first time delay.
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