An arc fault protection circuit and method, provides arc fault protection in a multiphase power system by actuating a plurality of disconnect switches to disconnect the source from the load in response to detecting arcing proximate the load. As well, in response to detecting the arc, a plurality of
An arc fault protection circuit and method, provides arc fault protection in a multiphase power system by actuating a plurality of disconnect switches to disconnect the source from the load in response to detecting arcing proximate the load. As well, in response to detecting the arc, a plurality of impedances are introduced into the current path between said source and said load, with each of the impedances increasing the impedance between the source and the load along one phase, prior to the plurality of disconnect switches disconnecting the source from the load.
대표청구항▼
1. A multiphase power distribution system comprising: a source, and load, interconnected by a multiphase line;an arc detector for detecting arcing proximate a load;a first plurality of switches, each having a pair of contacts in series with one phase of a multiphase line between said source and said
1. A multiphase power distribution system comprising: a source, and load, interconnected by a multiphase line;an arc detector for detecting arcing proximate a load;a first plurality of switches, each having a pair of contacts in series with one phase of a multiphase line between said source and said load;a plurality of impedances, one of a plurality of impedances in parallel with each of a first plurality of switches interconnecting its pair of contacts, to provide a high impedance path between its pair of contacts when opened;a second plurality of switches, one of said second plurality of switches in series with each of said phases of said multiphase line between said source and said load,said arc detector in communication with and said first plurality of switches to open said first plurality of switches in response to said arc detector detecting arcing proximate said load, thereby inserting a high impedance path between said source and said load, and said second plurality of switches to disconnect said source from said load in response to said arc detector detecting arcing proximate said load. 2. The multiphase power distribution system of claim 1, wherein said arc fault detector optically detects arcing. 3. The multiphase power distribution system of claim 1, wherein said arc fault detector chemically detects arcing. 4. The multiphase power distribution system of claim 1, wherein said first plurality of switches opens more quickly than said second plurality of switches. 5. The multiphase power distribution system of claim 4, wherein said first plurality of switches and said second plurality of switches are actuated to open concurrently. 6. The multiphase power distribution system of claim 5, further comprising a controller in communication with said arc fault detector and said first and second plurality of switches to control said first and second plurality of switches. 7. The multiphase power distribution system of claim 6, wherein said controller is integrated with said arc detector. 8. The multiphase power distribution system of claim 5, wherein each of said second plurality of switches is electromechanical. 9. The multiphase power distribution system of claim 8 wherein each of said first plurality of switches is a solid state switch. 10. The multiphase power distribution system of claim 9, wherein said first switches open in a fraction of a period of said source, and said second switches open in an interval exceed a period of said source. 11. The multiphase power distribution system of claim 10, wherein said source provides at least one of 600V, 2400V, or 4160 V three phase AC power. 12. The multiphase power distribution system of claim 1, wherein said arc fault detector detects at least one of pressure and temperature. 13. The method of claim 1, wherein said detecting comprises detecting at least one of pressure and temperature. 14. A method of providing arc fault protection in a multiphase power system, said method comprising: providing a plurality of disconnect switches, one in series with each phase of a multiphase line between a source and a load,in response to detecting arcing proximate said load, actuating said plurality of disconnect switches to disconnect said source from said load;in response to said detecting, introducing a plurality of impedances in the current path between said source and said load, with each one of said plurality of impedances increasing the impedance between said source and said load along one phase, prior to said plurality of disconnect switches disconnecting said source from said load. 15. The method of claim 14, wherein each of said plurality of impedances, is in parallel with a switch interconnecting its pair of contacts, and wherein each impedance is introduced into the current path by opening a respective switch. 16. The method of claim 15, wherein said disconnect switches and each switch used to introduce each impedance are actuated to open concurrently. 17. The method of claim 16, wherein each said switch used to introduce each of said impedances opens more quickly than said disconnect switches. 18. The method of claim 17, wherein each said switch used to introduce each of said impedances is a solid state switch. 19. The method of claim 18, wherein each of said disconnect switches is an electromechanical switch. 20. A multiphase power system comprising: a plurality of disconnect switches, each one for connection in series with each phase of a multiphase line between a source and a load,means for detecting arcing proximate said load,means for actuating said plurality of disconnect switches to disconnect said source from said load;means for introducing a plurality of impedances in the current path between said source and said load, with each one of said plurality of impedances increasing the impedance between said source and said load along one phase, prior to said plurality of disconnect switches disconnecting said source from said load.
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