A system and a method for electricity management are disclosed. The system includes a data management unit, a cabinet, a control unit, an uninterruptible power supply apparatus and a power switch. The cabinet is powered by an external power supply. When the data management unit sends a testing instr
A system and a method for electricity management are disclosed. The system includes a data management unit, a cabinet, a control unit, an uninterruptible power supply apparatus and a power switch. The cabinet is powered by an external power supply. When the data management unit sends a testing instruction to the cabinet, the control unit controls the power switch to shut down the external power supply such that the cabinet is powered by the uninterruptible power supply apparatus instead. The control unit measures a set of battery parameters of the uninterruptible power supply apparatus, computes a power supply capacity of the uninterruptible power supply apparatus according to the set of battery parameters, and returns the power supply capacity to the data management unit.
대표청구항▼
1. An electricity management system, comprising: at least one cabinet, wherein every cabinet includes at least one electronic equipment, and the at least one cabinet is powered by an external power supply;a data management unit, which is electrically connected with the at least one cabinet, the data
1. An electricity management system, comprising: at least one cabinet, wherein every cabinet includes at least one electronic equipment, and the at least one cabinet is powered by an external power supply;a data management unit, which is electrically connected with the at least one cabinet, the data management unit being used to configure a testing instruction and send the testing instruction to the at least one cabinet;at least one control unit;at least one uninterruptible power supply apparatus, which is electrically connected with the at least one control unit and the at least one cabinet respectively; andat least one power switch, which is electrically connected with the at least one control unit and the external power supply, respectively;by means of the aforementioned structure, when the data management unit sends the testing instruction to the at least one cabinet, the at least one control unit controls the at least one power switch to shut down the power to the at least one cabinet from the external power supply and the at least one cabinet is powered by the at least one uninterruptible power supply apparatus instead, and the at least one control unit measures a set of battery parameters of the at least one uninterruptible power supply apparatus and calculates a power capacity of the at least one uninterruptible power supply apparatus according to the set of battery parameters, and returns the power capacity to the data management unit. 2. The electricity management system as claimed in claim 1, wherein the data management unit is further used to determine whether the power capacity is less than a default capacity, and if the power capacity is less than the default capacity, the data management unit configures a service power during a blackout for the at least one cabinet. 3. The electricity management system as claimed in claim 2, wherein the testing instruction includes a service power, and the at least one cabinet is operated with the service power. 4. The electricity management system as claimed in claim 3, wherein the testing instruction further includes a termination condition, the at least one control unit functions according to the termination condition to control the at least one power switch to turn on the external power supply to power the at least one cabinet instead of the at least one uninterruptible power supply apparatus. 5. The electricity management system as claimed in claim 4, wherein the termination condition includes whether the operation voltage of the at least one uninterruptible power supply apparatus is lower than a default voltage, whether the operation time of the at least one uninterruptible power supply apparatus exceeds a default time, or whether the amount of power supplied by the at least one uninterruptible power supply apparatus exceeds a default value of power supplied. 6. The electricity management system as claimed in claim 1, wherein the set of battery parameters includes voltage data, electric current data, and temperature data. 7. The electricity management system as claimed in claim 1, wherein the electronic equipment can be at least one hard disc, at least one server, or a combination of at least one hard disc and at least one server. 8. An electricity management method, which is used by an electricity management system, and the electricity management system includes a data management unit, at least one cabinet, at least one control unit, at least one uninterruptible power supply apparatus and at least one power switch, wherein every cabinet includes at least one electronic equipment, the at least one cabinet is powered by an external power supply, the data management unit is electrically connected with the at least one cabinet, the at least one uninterruptible power supply apparatus is electrically connected with the at least one control unit and the at least one cabinet, respectively, and the at least one power switch is electrically connected with the at least one control unit and the external power supply, respectively; the method comprising: by means of the data management unit, configuring a testing instruction and sending the testing instruction to the at least one cabinet;by means of the at least one control unit, controlling the at least one power switch to shut down the power to the at least one cabinet from the external power supply such that the at least one cabinet is powered by the at least one uninterruptible power supply apparatus instead;by means of the at least one control unit, measuring a set of battery parameters of the at least one uninterruptible power supply apparatus; andby means of the at least one control unit, calculating a power capacity of the at least one uninterruptible power supply apparatus according to the set of battery parameters and returning the power capacity to the data management unit. 9. The electricity management method as claimed in claim 8, further includes: by means of the data management unit, determining whether the power capacity is less than a default capacity; and if the power capacity is less than the default capacity, then the data management unit configures a service power during a blackout for the at least one cabinet. 10. The electricity management method as claimed in claim 9, wherein the testing instruction includes a service power, and the at least one cabinet is operated with the service power. 11. The electricity management method as claimed in claim 10, wherein the testing instruction further includes a termination condition, the at least one control unit functions according to the termination condition to control the at least one power switch to turn on the external power supply to power the at least one cabinet instead of the at least one uninterruptible power supply apparatus. 12. The electricity management method as claimed in claim 11, wherein the termination condition includes whether the operation voltage of the at least one uninterruptible power supply apparatus is lower than a default voltage, whether the operation time of the at least one uninterruptible power supply apparatus exceeds a default time or whether the amount of power supplied by the at least one uninterruptible power supply apparatus exceeds a default value of power supplied. 13. The electricity management method as claimed in claim 8, wherein the set of battery parameters includes voltage data, electric current data, and temperature data. 14. The electricity management method as claimed in claim 8, wherein the electronic equipment can be at least one hard disc, at least one server or a combination of at least one hard disc and at least one server.
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이 특허에 인용된 특허 (5)
Stich Frederick A. (Wisconsin Rapids WI) Beistle Edward G. (Appleton WI), Method and apparatus for determination of battery run-time in uninterruptible power system.
Johnson ; Jr. Robert W. (Raleigh NC), UPS-computer system and method for initiating computer shutdown based on remaining battery time as determined from sense.
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