A system for distributing electrical current to a plurality of loads includes a first sensor coupled to an input of a protection zone for measuring a first current entering the protection zone, wherein the protection zone includes at least a portion of an electrical distribution feeder. The system a
A system for distributing electrical current to a plurality of loads includes a first sensor coupled to an input of a protection zone for measuring a first current entering the protection zone, wherein the protection zone includes at least a portion of an electrical distribution feeder. The system also includes a second sensor coupled to an output of the protection zone for measuring a second current exiting the protection zone, and a processor coupled to the first sensor and to the second sensor. The processor is programmed to receive measurements representative of the first current and the second current, and calculate a reactive current differential of the protection zone based on the first current and the second current. The processor is also programmed to compare the reactive current differential with a fault threshold, and generate an error notification if the reactive current differential is greater than the fault threshold.
대표청구항▼
1. A system for distributing electrical current to a plurality of loads, said system comprising: a first sensor coupled to an input of a protection zone for measuring a first current entering the protection zone, wherein the protection zone includes at least a portion of an electrical distribution f
1. A system for distributing electrical current to a plurality of loads, said system comprising: a first sensor coupled to an input of a protection zone for measuring a first current entering the protection zone, wherein the protection zone includes at least a portion of an electrical distribution feeder;a second sensor coupled to an output of the protection zone for measuring a second current exiting the protection zone; anda processor coupled to said first sensor and to said second sensor, said processor programmed to: receive measurements representative of the first current and the second current;calculate a reactive current differential of the protection zone based on the first current and the second current;compare the reactive current differential with a fault threshold; andgenerate an error notification if the reactive current differential is greater than the fault threshold. 2. A system in accordance with claim 1, wherein the electrical distribution feeder includes a plurality of load taps. 3. A system in accordance with claim 2, wherein said processor is programmed to calculate the reactive current differential of the protection zone based on the first current, the second current, and a current provided to the plurality of load taps. 4. A system in accordance with claim 1, wherein said processor is programmed to determine whether a fault exists within said system by: determining a first reactive current differential value;waiting for a predetermined time to elapse; anddetermining a second reactive current differential value. 5. A system in accordance with claim 4, wherein said processor is further programmed to determine that a fault exists within said system if the first reactive current differential value is greater than the fault threshold and if the second reactive current differential value is not less than the first reactive current differential value. 6. A system in accordance with claim 1, wherein said processor is further programmed to determine whether a fault exists within said system by determining a magnitude of a second harmonic current within the protection zone. 7. A system in accordance with claim 6, wherein said processor is further programmed to determine that a fault exists if the reactive current differential is greater than the fault threshold and if the magnitude of the second harmonic current does not exceed a predetermined harmonic current threshold. 8. A controller for use in a power distribution system, said controller comprising: a memory device configured to store measurements representative of a first current entering a protection zone within the power distribution system and measurements representative of a second current exiting the protection zone; anda processor coupled to said memory device, said processor programmed to: receive measurements representative of the first current and the second current from said memory device;calculate a reactive current differential of the protection zone based on the first current and the second current;compare the reactive current differential with a fault threshold; andgenerate an error notification if the reactive current differential is greater than the fault threshold. 9. A controller in accordance with claim 8, wherein the protection zone includes a plurality of load taps, said processor is further programmed to calculate the reactive current differential based on the first current, the second current, and a current provided to the plurality of load taps. 10. A controller in accordance with claim 8, wherein said processor is further programmed to determine whether a fault exists within the power distribution system based on the reactive current differential. 11. A controller in accordance with claim 10, wherein said processor is further programmed to determine whether the fault exists by: determining a first reactive current differential value;waiting for a predetermined time to elapse; anddetermining a second reactive current differential value. 12. A controller in accordance with claim 11, wherein said processor is further programmed to determine that the fault exists if the first reactive current differential value is greater than the fault threshold and if the second reactive current differential value is not less than the first reactive current differential value. 13. A controller in accordance with claim 10, wherein said processor is further programmed to determine whether the fault exists by determining a magnitude of a second harmonic current within the protection zone. 14. A controller in accordance with claim 13, wherein said processor is further programmed to determine that a fault exists if the reactive current differential is greater than the fault threshold and if the magnitude of the second harmonic current does not exceed a predetermined harmonic current threshold. 15. A method for detecting a fault within a power distribution system, said method comprising: receiving measurements representative of a first current entering a protection zone and a second current exiting the protection zone;calculating a reactive current differential of the protection zone based on the first current and the second current;comparing the reactive current differential with a fault threshold;generating an error notification if the reactive current differential is greater than the fault threshold; andopening isolation devices to disable the distribution of a voltage and a current to a section of the power distribution system. 16. A method in accordance with claim 15, wherein the protection zone includes a plurality of load taps, said method calculates the reactive current differential based on the first current, the second current, and a current provided to the plurality of load taps. 17. A method in accordance with claim 15, further comprising determining whether a fault exists within the power distribution system based on the reactive current differential. 18. A method in accordance with claim 17, wherein said determining whether a fault exists comprises: determining a first reactive current differential value;waiting for a predetermined time to elapse; anddetermining a second reactive current differential value. 19. A method in accordance with claim 18, further comprising determining that a fault exists if the first reactive current differential value is greater than the fault threshold and if the second reactive current differential value is not less than the first reactive current differential value. 20. A method in accordance with claim 17, wherein said determining whether a fault exists comprises: determining a magnitude of a second harmonic current within the protection zone; anddetermining whether the magnitude of the second harmonic current exceeds a predetermined harmonic current threshold.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (4)
Brennen Michael B. (Pittsburgh PA) Moran Steven A. (Pittsburgh PA), Active power line conditioner with low cost surge protection and fast overload recovery.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.