GROUND FAULT CIRCUIT INTERRUPTER
First Claim
1. An electrical ground fault circuit interrupter (GFCI) device, comprising:
- a sense coil configured to determine a current flow in an electrically conductive power circuit coupled between a power source and a load;
a switching device coupled to the power circuit and configured to disconnect the power source from the load;
a controller in communication with said sense coil and said switching device and configured to control said switching device based on the current flow in the power circuit; and
an electrical power supply coupled to said switching device, wherein the power supply is electrically separate and electrically isolated from the power circuit.
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Accused Products
Abstract
A ground fault circuit interrupter (GFCI) includes a sense coil to determine a current flow in a power circuit coupled between a power source and a load. The GFCI also includes a switching device configured to disconnect the power source from the load. The GFCI further includes a controller that controls the switching device based on the current flow in the power circuit. The GFCI additionally includes an electrical power supply that provides electrical power to the switching device. The power supply is electrically separate and isolated from the power circuit. The GFCI may be used to monitor a power circuit connected to a tuned resonant circuit, such as a source or capture resonator of a wireless power transfer system, since inductive elements in the switching device, such as solenoids, are isolated from the power circuit and therefore cannot unbalance a tuned resonant circuit connected to the power circuit.
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Citations
12 Claims
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1. An electrical ground fault circuit interrupter (GFCI) device, comprising:
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a sense coil configured to determine a current flow in an electrically conductive power circuit coupled between a power source and a load; a switching device coupled to the power circuit and configured to disconnect the power source from the load; a controller in communication with said sense coil and said switching device and configured to control said switching device based on the current flow in the power circuit; and an electrical power supply coupled to said switching device, wherein the power supply is electrically separate and electrically isolated from the power circuit. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A wireless power transmitter, comprising:
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a power source; a source resonator; an electrically conductive power circuit coupled between said power source and said source resonator; and a GFCI device, including a sense coil configured to determine a current flow in said power circuit, a switching device coupled to said power circuit and configured to disconnect said power source from said source resonator, a controller in communication with the sense coil and the switching device and configured to control the switching device based on the current flow in said power circuit, and an electrical power supply coupled to the switching device, wherein the power supply is electrically separate and electrically isolated from said power circuit. - View Dependent Claims (8, 9)
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10. A wireless power receiver, comprising:
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a capture resonator; an electrical storage device; an electrically conductive power circuit coupled between said capture resonator and said storage device; and a GFCI device, including a sense coil configured to determine a current flow in said power circuit, a switching device coupled to said power circuit and configured to disconnect said capture resonator from said storage device, a controller in communication with the sense coil and the switching device and configured to control the switching device based on the current flow in said power circuit, and an electrical power supply coupled to the switching device, wherein the power supply is electrically separate and electrically isolated from said power circuit. - View Dependent Claims (11, 12)
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Specification