Claims
- 1. A method for protecting loads associated with power distribution system inductive signal couplers, the method comprising:
providing an inductive signal coupler having a first winding in series with a line conductor of a power distribution system, and a second winding having first and second connection terminals; connecting a first terminal of a first fuse to said first connection terminal, and a first terminal of a second fuse to said second connection terminal, a second terminal of each fuse being connected to a communication device; and connecting a first terminal of a first choke to said second terminal of said first fuse, and a first terminal of a second choke to said second of said second fuse, a second terminal of each choke being connected to an electrical ground.
- 2. A method according to claim 1, wherein each of said first and second chokes uses wire of sufficient gauge to withstand high current flowing during an actuation time of its associated fuse.
- 3. A method according to claim 1, wherein each of said first and second chokes possesses a self-resonant frequency in excess of a highest frequency utilized by said communication device.
- 4. A method according to claim 1, further comprising connecting a first terminal of a surge suppressor to said first connection terminal of said second winding and connecting a second terminal of said surge suppressor to said second connection terminal of said second winding.
- 5. The method of claim 4, wherein said surge suppressor is selected from the group consisting of a spark gap and a gas tube surge arrestor.
- 6. A method according to claim 1, wherein said first fuse and said first choke form a first series resistance, and said second fuse and said second choke form a second series resistance, and wherein said first and second series resistances each exceed a selected threshold resistance so as to minimize power frequency circulation current.
- 7. A method according to claim 1, further comprising:
providing a first resistor in series with said first fuse and said first choke to form a first series resistance, and providing a second resistor in series with said second fuse and said second choke to form a second series resistance, wherein said first and second series resistances each exceed a selected threshold resistance so as to minimize power circulation current.
- 8. A method according to claim 1, wherein said first and second fuses are packaged in a single common housing.
- 9. A method according to claim 8, wherein said first and second fuses are helical current limiting fuses having a helix axis.
- 10. A method according to claim 9, further comprising:
placing a magnetic core is in said helix axis.
- 11. A method according to claim 1, further comprising:
connecting a capacitor in series with said second terminal of each of said first and second fuses and said communication device; and connecting a surge suppressor between a communication device side of each capacitor and the electrical ground, so that capacitive loading reduces the magnitude of an initial voltage transient resulting from a flashover between said windings of said inductive signal coupler.
- 12. A method for protecting loads associated with power distribution system inductive signal couplers, the method comprising:
providing an inductive signal coupler having a first winding in series with a line conductor of a power distribution system, and a second winding having first and second connection terminals; encapsulating said second winding inside a layer of electrical insulation; and connecting said second winding to an electrical ground using protection circuits so as to place any high voltage field across said layer of electrical insulation.
- 13. A method for protecting loads associated with power distribution system inductive signal couplers, the method comprising:
providing an inductive signal coupler having a first winding in series with a line conductor of a power distribution system, and a second winding having first and second connection terminals, said coupler having a body including sheds providing a leakage path to avoid external flashover during an electrical transient.
- 14. A method for protecting loads associated with power distribution system inductive signal couplers, the method comprising:
providing an inductive signal coupler having a first winding in series with a line conductor of a power distribution system, and a second winding having first and second connection terminals, said coupler having a body including a conductive plate at an end of said coupler distal from said first winding; and connecting said conductive plate to an electrical ground so as to route a flashover current directly to the electrical ground.
- 15. A method for protecting loads associated with power distribution system inductive signal couplers, the method comprising:
providing an inductive signal coupler having a first winding in series with a line conductor of a power distribution system, and a second winding having first and second connection terminals; and connecting each terminal of said second winding to an electrical ground via a choke, said choke presenting a high impedance to signal frequencies and a low impedance to current from an electrical fault signal.
- 16. A method according to claim 15, wherein leads of said second winding are connected to output terminals that are connected to a communication device via series capacitors.
- 17. A method according to claim 16, further comprising connecting at least one low capacitance surge suppressor across said output terminals.
- 18. An arrangement of components, comprising:
an inductive signal coupler having a first winding in series with a line conductor of a power distribution system, and a second winding having a first connection terminal and a second connection terminal; a first fuse having a first terminal connected to said first connection terminal, and a second terminal for coupling a signal to a first terminal of a communication device; a second fuse having a first terminal connected to said second connection terminal, and a second terminal for coupling a signal to a second terminal of said communication device; a first choke having a first terminal connected to said second terminal of said first fuse, and a second terminal connected to an electrical ground; and a second choke having a first terminal connected to said second terminal of said second fuse, and a second terminal connected to the electrical ground.
- 19. The arrangement of claim 18, further comprising a surge suppressor having a first terminal connected to said first connection terminal of said second winding, and a second terminal connected to said second connection terminal of said second winding.
- 20. The arrangement of claim 19, wherein said surge suppressor is selected from the group consisting of a spark gap and a gas tube surge arrestor.
- 21. The arrangement of claim 18, further comprising:
a first resistor in series with said first fuse; and a second resistor in series with said second fuse.
- 22. The arrangement of claim 18, wherein said first and second fuses are packaged in a single common housing.
- 23. The arrangement of claim 22, wherein said first and second fuses are helical current limiting fuses.
- 24. The arrangement of claim 23, wherein said helical current limiting fuses have a magnetic core.
- 25. The arrangement of claim 18, further comprising:
a first capacitor having a first terminal in series with said second terminal of said first fuse, and a second terminal for said coupling said signal to said first terminal of said communication device; a second capacitor having a first terminal in series with said second terminal of said second fuse, and a second terminal for said coupling said signal to said second terminal of said communication device; a surge suppressor between said second terminal of said first capacitor and said second terminal of said second capacitor.
- 26. An arrangement of components, comprising:
an inductive signal coupler having a first winding in series with a line conductor of a power distribution system, and a second winding encapsulated inside a layer of electrical insulation; and a circuit between said second winding and an electrical ground for placing a high voltage field across said layer of electrical insulation.
- 27. An inductive signal coupler for coupling a signal to a power distribution system, comprising:
a first winding in series with a line conductor of said power distribution system; and sheds for providing a leakage path to avoid external flashover during an electrical transient.
- 28. An inductive signal coupler for coupling a signal to a power distribution system, comprising:
a winding in series with a line conductor of said power distribution system; and a conductive plate at an end of said coupler distal from said first winding, for routing a flashover current to an electrical ground.
- 29. An arrangement of components, comprising:
an inductive signal coupler having a first winding in series with a line conductor of a power distribution system, and a second winding having a first connection terminal and a second connection terminal; a first choke between said first connection terminal and an electrical ground; and a second choke between said second connection terminal and said electrical ground, wherein each of said first choke and said second choke present a high impedance to a signal frequency and a low impedance to current from an electrical fault signal.
- 30. The arrangement of claim 29, further comprising:
a first capacitor in series with said first connection terminal and having a device-side terminal for coupling a signal to a first terminal of a communication device; and a second capacitor in series with said second connection terminal and having a device-side terminal for coupling a signal to a second terminal of said communication device.
- 31. The arrangement of claim 29, further comprising a surge suppressor for suppressing a fault voltage between said device-side terminal of said first capacitor and said device-side terminal of said second capacitor.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] The present application is claiming priority of U.S. Provisional Patent Application Serial No. 60/364,321, filed on Mar. 14, 2002, and U.S. Provisional Patent Application Serial No. 60/376,377, filed on Apr. 29, 2002.
Provisional Applications (2)
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Number |
Date |
Country |
|
60364321 |
Mar 2002 |
US |
|
60376377 |
Apr 2002 |
US |