Power collector for inductive power transfer
First Claim
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1. An inductive power transfer system comprising:
- a source of alternating electric power having an operating frequency;
a resonant primary for generating a magnetic field from said source of alternating current;
a vehicle having at least one inductive power collector mounted thereon;
wherein said inductive power collector comprises at least one capacitance and at least one coil of one or more windings for intercepting the magnetic field from said resonant primary, and at least one electrical load,wherein the at least one capacitance is in series with the coil and the load, and the reactance of the series capacitance is substantially equal to the sum of (a) the inductive reactance of the coil at the operating frequency and (b) the mutual reactance of the coupling between the resonant primary and the at least one coil of the power collector, andwherein there is no parallel resonance effect.
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Abstract
This inductive power transfer system provides a capacitor (15) having a pickup coil (14) in series between the windings of the pickup coil and the electrical load (16, 17, 18). A power-factor compensating capacitor (19) may be used at the feed to a loop of one or a few turns of primary inductor cable (11,12), so that a reasonable supply-mains current can maintain the primary inductor current. The length of the cable, and hence the impedance, of primary cable may be varied in order to match the primary inductor to the voltage of the supply mains.
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Citations
10 Claims
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1. An inductive power transfer system comprising:
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a source of alternating electric power having an operating frequency; a resonant primary for generating a magnetic field from said source of alternating current; a vehicle having at least one inductive power collector mounted thereon; wherein said inductive power collector comprises at least one capacitance and at least one coil of one or more windings for intercepting the magnetic field from said resonant primary, and at least one electrical load, wherein the at least one capacitance is in series with the coil and the load, and the reactance of the series capacitance is substantially equal to the sum of (a) the inductive reactance of the coil at the operating frequency and (b) the mutual reactance of the coupling between the resonant primary and the at least one coil of the power collector, and wherein there is no parallel resonance effect. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An inductive power transfer system comprising:
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a source of alternating electric power having an operating frequency; a resonant primary having an elongated track comprising a pair of electrically conductive rails; a plurality of vehicles each vehicle capable of moving on said track and each vehicle having at least one inductive power collector mounted thereon; wherein each said inductive power collector comprises at least one capacitance and at least one coil of one or more windings for intercepting a magnetic field from the primary conductive rails, and at least one electrical load, wherein the at least one coil is spaced apart from the conductive rails by up to about 100 mm, wherein the at least one capacitance is in series with the coil and the load, and the reactance of the series capacitance is substantially equal to the sum of (a) the inductive reactance of the coil at the operating frequency and (b) the mutual reactance of the coupling between the resonant primary and the at least one coil of the power collector, and wherein there is no parallel resonance effect thereby allowing said vehicles to be adjacent to one another on said track without interfering with one another.
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9. A self-powered vehicle, adapted for use with an inductive power transfer source producing a varying magnetic field at an operating frequency, said vehicle comprising:
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at least three road wheels and means for control and guidance, at least one inductive power collector for collecting power from said inductive power transfer system, apparatus for conversion of electrical energy into a storable form, apparatus for storage of electrical energy, apparatus for recovery of stored electrical energy and its controlled delivery to at least one electromotive transducer, the power collector comprising at least one capacitance and at least one coil of one or more windings for intercepting the magnetic field from the inductive power transfer source, and at least one electrical load, wherein the at least one capacitance is in series with the coil and the load, and the reactance of the series capacitance is substantially equal to the sum of (a) the inductive reactance of the coil at the operating frequency and (b) the mutual reactance of the coupling between the inductive power transfer source and the at least one coil of the power collector, and wherein there is no parallel resonance effect.
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10. A power collector for collecting power from an inductive power transfer source across a space, using one or more primary conductors capable of carrying an alternating electric current having an operating frequency as primary emitters of a varying magnetic field, the power collector comprising at least one capacitance and at least one coil of one or more windings for intercepting the magnetic field from the one or more primary conductors, and at least one electrical load,
wherein the at least one capacitance is in series with the coil and the load, and the reactance of the series capacitance is substantially equal to the inductive reactance of the coil at the operating frequency, and wherein there is no parallel resonance effect.
Specification