Capacitive data transfer in an electronic lock and key assembly
First Claim
Patent Images
1. An electronic key comprising:
- a housing;
a power source disposed within the housing;
a processor in communication with the power source;
a partial capacitor comprising a first capacitive metal plate in communication with the processor, the first capacitive metal plate of the partial capacitor configured to form a capacitor with a corresponding second capacitive metal plate of a lock when brought into proximity with the second capacitive metal plate of the lock, wherein the first capacitive metal plate comprises an annulus;
a key power coil, wherein the key power coil and the first capacitive metal plate are concentric; and
a nose portion disposed within a hole formed by the annulus, wherein the key power coil is disposed at least partially within the nose portion,wherein the processor is programmed to transfer data signals at least partially by using the partial capacitor.
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Abstract
An electronic key may include a partial capacitor comprising a capacitive metal plate in communication with a processor. The capacitive metal plate of the partial capacitor is configured to form a capacitor with a corresponding capacitive metal plate of a lock when brought into proximity with the metal plate of the lock. Data may be transferred from the key to the lock using a capacitor formed by combining the two metal plates, wherein a common ground is established between the metal plate of the key and the metal plate of the lock through a parasitic capacitance present between the key and lock circuitry.
209 Citations
15 Claims
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1. An electronic key comprising:
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a housing; a power source disposed within the housing; a processor in communication with the power source; a partial capacitor comprising a first capacitive metal plate in communication with the processor, the first capacitive metal plate of the partial capacitor configured to form a capacitor with a corresponding second capacitive metal plate of a lock when brought into proximity with the second capacitive metal plate of the lock, wherein the first capacitive metal plate comprises an annulus; a key power coil, wherein the key power coil and the first capacitive metal plate are concentric; and a nose portion disposed within a hole formed by the annulus, wherein the key power coil is disposed at least partially within the nose portion, wherein the processor is programmed to transfer data signals at least partially by using the partial capacitor. - View Dependent Claims (2, 3, 4, 5, 6, 8, 9, 10)
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7. An electronic key comprising:
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a housing; a power source disposed within the housing; a processor in communication with the power source; a partial capacitor communication with the processor, the first capacitive metal plate of the partial capacitor configured to form a capacitor with a corresponding second capacitive metal plate of a lock when brought into proximity with the second capacitive metal plate of the lock, wherein the first capacitive metal plate comprises an annulus; and a key power coil comprising a ferromagnetic core, the ferromagnetic core of the key power coil disposed at least partially behind the first capacitive metal plate, wherein wire leads of the key power coil project through an aperture in the ferromagnetic core, and wherein the processor is programmed to transfer data signals at least partially by using the partial capacitor.
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11. An electronic lock comprising:
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a housing; a locking mechanism disposed within the housing; a processor disposed within the housing; and a partial capacitor comprising a first capacitive metal plate in communication with the processor, the first capacitive metal plate configured to form a capacitor with a corresponding second capacitive metal plate of a key when brought into proximity with the second capacitive metal plate of the key, wherein the first capacitive metal plate comprises an annulus; and a nose portion disposed within a hole formed b the annulus, wherein a lock power coil is disposed at least partially within the nose portion, wherein the processor is programmed to process data signals received through the partial capacitor to actuate the locking mechanism. - View Dependent Claims (12, 13, 14, 15)
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Specification