A power distribution system among a set of units (e.g., server blocks) may comprise, for each unit, a utility line and a unit generator, and a reserve generator providing failover transient performance and redundancy improvement to the power for the unit generators. The reserve generator may connect
A power distribution system among a set of units (e.g., server blocks) may comprise, for each unit, a utility line and a unit generator, and a reserve generator providing failover transient performance and redundancy improvement to the power for the unit generators. The reserve generator may connect to the units via a reserve bus, and the unit generators may selectively connect to a wraparound bus connected to the reserve bus. When the failover load exceeds the available failover transient capability of one generator, one or more unit generators may (automatically or by operator selection) be connected with the wraparound bus to apply available transient capability to satisfy the excess failover load with minimal increase in power distribution resources and complexity.
대표청구항▼
1. A generator set providing power to at least two units, the generator set comprising: a reserve generator;a reserve bus connecting respective units to the reserve generator;a wraparound bus connecting the respective units to the reserve bus;for respective units: a utility line;a unit generator;a g
1. A generator set providing power to at least two units, the generator set comprising: a reserve generator;a reserve bus connecting respective units to the reserve generator;a wraparound bus connecting the respective units to the reserve bus;for respective units: a utility line;a unit generator;a generator switch that: routes power to a unit load from the utility line, andresponsive to detecting unit load exceeding power from the utility line, routes power to the unit load from the unit generator;a reserve switch that, responsive to detecting unit load exceeding power routed by the generator switch, routes power to the unit load from the reserve bus; anda wraparound controller that, when the unit has capacity exceeding the unit load, selectively connects the unit to the wraparound bus to supplement the power provided by the reserve generator to a second unit load. 2. The generator set of claim 1, the wraparound controller comprising: an operator panel comprising at least one operator switch that, when toggled by an operator, activates the wraparound controller for at least one unit generator. 3. The generator set of claim 1, the wraparound controller detects a reserve insufficiency comprising reserve load on the reserve bus exceeding power from the reserve generator; and responsive to the reserve bus monitor detecting the reserve insufficiency, selectively connects the unit generator to the wraparound bus to supplement the power provided by the reserve generator to satisfy the reserve insufficiency. 4. The generator set of claim 3: respective unit generators having a maximum load; andthe wraparound controller selectively connects the unit to the wraparound bus to supplement the power provided by the reserve generator, wherein the power provided by the unit is within the maximum load of the unit generator. 5. The generator set of claim 1, comprising: a load bank that supplies variable load to the reserve bus. 6. The generator set of claim 5: respective unit generators having a minimum load; andthe generator set comprising: a load bank controller that selects a variable load of the load bank to provide the minimum loads to respective unit generators. 7. The generator set of claim 5: the generator set that provides a failure tolerance of a specified number of unit failures of unit generators; andthe load bank that selects a variable load not greater than the loads of the specified number of unit failures. 8. The generator set of claim 5, comprising: a load bank controller that, responsive to detecting a connection of at least one unit generator to the wraparound bus, reduces the variable load of the load bank. 9. The generator set of claim 1, respective unit generators capable of providing power to the wraparound bus with a step load of at least one additional unit. 10. The generator set of claim 1, respective units comprising: a battery connecting the generator switch and the reserve switch. 11. The generator set of claim 1, respective units comprising: at least one air handling unit that controls air flow within the unit. 12. The generator set of claim 11: respective units comprising a battery receiving power from the generator switch; andthe at least one air handling unit comprising: a primary air handling unit connected to the battery; andan auxiliary air handling unit connected to the generator switch and not connected to the battery. 13. The method of claim 1, wherein the wraparound controller further selectively connects the unit to the wraparound bus when a reserve load on the reserve bus exceeds power from the reserve generator. 14. A method of controlling a generator set providing power to at least two units, the generator set comprising: a reserve generator;a reserve bus connecting respective units to the reserve generator;for respective units: a utility line;a unit generator; anda reserve switch that, responsive to detecting a unit load exceeding power from the utility line and the unit generator, routes power from the reserve bus; anda wraparound bus connecting respective unit generators to the reserve bus; and the method comprising: monitoring a reserve load on the reserve bus and power from the reserve generator; andresponsive to detecting reserve load on the reserve bus exceeding power from the reserve generator: identifying a selected unit having spare capacity that exceeds power routed to a unit load of the selected unit; andselectively connecting the selected unit to the wraparound bus to supplement the power provided by the reserve generator for the reserve load. 15. The method of claim 14: respective unit generators having a maximum load; andselectively connecting the selected unit to the wraparound bus further comprising: selectively connecting the selected unit to the wraparound bus to supplement the power provided by the reserve generator, wherein the power provided by the unit is within the maximum load of the unit generator. 16. The method of claim 14: the generator set further comprising: a load bank that supplies variable load to the reserve bus; andthe method further comprising: responsive to selectively connecting the selected unit to the wraparound bus, adjusting the variable load of the load bank. 17. The method of claim 16: respective unit generators having a minimum load; andadjusting the variable load of the load bank comprising: selecting a variable load of the load bank to provide the minimum loads to respective unit generators. 18. The method of claim 16: the generator set that provides a failure tolerance of a specified number of unit failures of unit generators; andadjusting the variable load of the load bank comprising: selecting a variable load of the load bank not greater than the loads of the specified number of unit failures. 19. The method of claim 16, adjusting the variable load of the load bank comprising: responsive to detecting a connection of at least one unit generator to the wraparound bus, reducing the variable load of the load bank. 20. A system for controlling a generator set providing power to at least two units, the generator set comprising: a reserve generator;a reserve bus connecting respective units to the reserve generator;for respective units: a utility line;a unit generator; anda reserve switch that, responsive to detecting unit load exceeding power from the utility line and the unit generator, routes power from the reserve bus; anda wraparound bus connecting respective unit generators to the reserve bus, the system comprising: a reserve load monitor that monitors a reserve load on the reserve bus and power from the reserve generator; anda wraparound bus connector that, responsive to detecting reserve load on the reserve bus exceeding power from the reserve generator: identifies a selected unit having spare power capacity that exceeds a unit load of the selected unit; andselectively connects the selected unit to the wraparound bus to supplement the power provided by the reserve generator for the reserve load.
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이 특허에 인용된 특허 (12)
Mekanik Fereydoun (Bellingham WA) Sorenson Donald C. (Lynden WA) Zediker Gregory Scott (Blaine WA) Osterman Thomas S. (Bainbridge Island WA), Apparatus and methods for generating uninterruptible AC power signals.
Eaton,Zane C.; Henegar,George C.; Hackbarth,Anthony J., Automatic transfer switch system capable of governing the supply of power from more than two power sources to a load.
Whitted, William; Sykora, Montgomery; Krieger, Ken; Jai, Benchiao; Hamburgen, William; Clidaras, Jimmy; Beaty, Donald L.; Aigner, Gerald, Data center uninterruptible power distribution architecture.
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