Electromagnetically coupled battery charger
First Claim
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1. A battery charger comprising:
- a first electromagnetic assembly having a drive winding and a sense winding;
a charging circuit operative to energize said drive winding to provide a predetermined alternating field;
a control circuit connected to said sense winding and to said charging circuit and operative in response to a signal from said sense winding to control the charging level of said charging circuit;
an electromagnetic receiver assembly connectable to a battery to be charged and adapted for electromagnetic coupling to said assembly; and
means operative in response to the presence of said receiver assembly in coupling relationship with said first assembly to enable full power operation of said charging circuitry, including;
a proximity winding operative to provide a signal upon coupling of said receiver assembly and said first assembly; and
means operative in response to said proximity winding signal to provide an enabling signal to cause full power operation of said charging circuit.
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Abstract
A solid state electronic battery charger which is electromagnetically coupled to one or more batteries. A charging circuit energizes a drive winding to produce an alternating field received by an associated coupler and operative to convey charging current to a battery connected thereto. A sense winding monitors the level of the alternating field to derive a signal representative of the battery charge level and which causes a tapered charge to be supplied to the battery and an indication of a sensed fully charged state. A proximity sensor can be provided to denote the presence of a coupled battery and by which charging operation is commenced.
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Citations
14 Claims
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1. A battery charger comprising:
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a first electromagnetic assembly having a drive winding and a sense winding; a charging circuit operative to energize said drive winding to provide a predetermined alternating field; a control circuit connected to said sense winding and to said charging circuit and operative in response to a signal from said sense winding to control the charging level of said charging circuit; an electromagnetic receiver assembly connectable to a battery to be charged and adapted for electromagnetic coupling to said assembly; and means operative in response to the presence of said receiver assembly in coupling relationship with said first assembly to enable full power operation of said charging circuitry, including; a proximity winding operative to provide a signal upon coupling of said receiver assembly and said first assembly; and means operative in response to said proximity winding signal to provide an enabling signal to cause full power operation of said charging circuit. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A battery charger comprising:
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a first electromagnetic assembly having a drive winding and a sense winding; a charging circuit operative to energize said drive winding to provide a predetermined alternating field, including; means operative in response to an AC source to provide a rectified and filtered signal; voltage regulator means receiving said rectified and filtered signal and providing an output signal of predetermined magnitude to said drive winding; and means for switching said output signal through said drive winding to provide said predetermined alternating field; a control circuit connected to said sense winding and to said charging circuit and operative in response to a signal from said sense winding to control the charging level of said charging circuit, including; rectifier means connected to said sense winding and operative to provide a signal representative of the magnitude of said alternating field; and comparator means operative in response to said signal from said rectifier means to provide an error signal to said voltage regulator means for controlling the magnitude of current applied to said drive winding; current sensing means in feedback connection with said voltage regulator means to limit the maximum current supplied to said drive winding; means for indicating the operating state of said charger; an electromagnetic receiver assembly connectable to a battery to be charged and adapted for electromagnetic coupling to said first assembly; and means operative in response to the presence of said receiver assembly in coupling relationship with said first assembly to enable full power operation of said charging circuitry, including; a proximity sensor operative to detect the presence of said receiver assembly in coupling relationship with said first assembly to provide a signal indication thereof; and means operative in response to said signal indication to control the magnitude of said error signal in accordance with the coupled condition of said receiver assembly and first assembly. - View Dependent Claims (8)
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9. For use in a battery charger electromagnetically coupled to a battery and including means for providing an alternating field by which charging current is supplied to said battery, and means for sensing said alternating field to control the magnitude of said charging current in accordance with the level of charge of said battery, an electromagnetic assembly comprising:
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a high permeability magnetic core having an outer annular wall and a coaxial cylindrical portion defining an annular space therebetween, said annular wall and cylindrical portion terminating in an end face; a drive winding coaxially disposed within said annular space about said cylindrical portion and providing in response to an energizing signal an alternating field emanating from said end face; and a sense winding coaxially disposed in said annular space in association with said drive winding and operative to provide a signal representative of the magnitude of said alternating field. - View Dependent Claims (10, 11)
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12. A battery charger comprising:
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a first electromagnetic assembly having a drive winding and a sense winding, including; a magnetic core having said drive winding and sense winding each disposed thereon; said drive winding providing said alternating field from a predetermined face of said core, and said sense winding being disposed to sense said alternating field; a charging circuit operative to energize said drive winding to provide a predetermined alternating field; a control circuit connected to said sense winding and to said charging circuit and operative in response to a signal from said sense winding to control the charging level of said charging circuit; an electromagnetic receiver assembly connectable to a battery to be charged and adapted for electromagnetic coupling to said assembly; and means operative in response to the presence of said receiver assembly in coupling relationship with said first assembly to enable full power operation of said charging circuitry, including; a proximity sense winding disposed with respect to said core to sense the fringing field of said drive winding in the absence of coupling between said receiver assembly and first assembly.
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13. For use in a battery charger electromagnetically coupled to a battery and including means for providing an alternating field by which charging current is supplied to said battery, and means for sensing said alternating field to control the magnitude of said charging current in accordance with the level of charge of said battery, an electromagnetic assembly comprising:
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a high permeability magnetic core having an outer annular wall and a coaxial cylindrical portion defining an annular space therebetween, said annular wall and cylindrical portion terminating in an end face; a drive winding coaxially disposed within said annular space about said cylindrical portion and providing in response to an energizing signal an alternating field emanating from said end face; a sense winding coaxially disposed in said annular space in association with said drive winding and operative to provide a signal representative of the magnitude of said alternating field; and a proximity sense winding coaxially disposed with respect to said drive and sense winding and outwardly extending from said end face and operative to sense the fringing field of said drive winding in the absence of a receiver assembly coupled to said core.
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14. A battery charging comprising:
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a first electromagnetic assembly having a drive winding disposed on a magnetic core; a charging circuit operative to energize said drive winding to provide a predetermined alternating field; an electromagnetic receiver assembly connectable to a battery to be charged and adapted for electromagnetic coupling to said first assembly; and means operative in response to the presence of said receiver assembly in coupling relationship with said first assembly to enable full power operation of said charging circuitry, including; a proximity winding disposed with respect to said core to sense the fringing field of said drive winding in the absence of coupling between said receiver assembly and first assembly and operative to provide a signal upon coupling of said receiver assembly and said first assembly; and means operative in response to said proximity winding signal to provide an enabling signal to allow full power operation of said charging circuit.
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Specification