RFID tag device and method of manufacturing
First Claim
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1. A method for fabricating a radio frequency identification tag device, the method comprising:
- providing a substrate comprising first and second major surfaces, wherein a first portion of the substrate comprises a connector tab;
providing a circuit pattern on a first major surface of a substrate, the circuit pattern comprising;
an antenna pattern comprising first and second ends;
a first connection pad and a second connection pad, wherein the first connection pad is located on the first major surface of the substrate within the connector tab;
a common capacitor plate in electrical communication with the antenna pattern; and
a plurality of tuning capacitor plates, each of the tuning capacitor plates in electrical communication with the antenna pattern through a tuning capacitor plate connection;
folding the connector tab along a connector tab fold line such that the first major surface of the substrate within the connector tab faces the first major surface of the substrate outside of the connector tab;
wherein the plurality of tuning capacitor plates are located on the connector tab or the common capacitor plate is located on the connector tab such that the plurality of tuning capacitor plates and the common capacitor plate form a capacitor after the folding; and
wherein the first connection pad faces the second connection pad after the folding.
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Abstract
Folded radio frequency identification tag devices and methods for high-volume, low-cost production are disclosed. The folded construction of the devices and methods of the present invention can reduce the complexity of the RFID tags by providing a one-sided circuit design. The resonant frequency of the circuits formed on the devices may be tuned by severing selected connections to one or more tuning capacitor plates that form a part of the capacitor structure. Severing connections to the tuning capacitor plates changes the capacitance of the circuit which, in turn, changes the resonant frequency of the circuit.
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Citations
31 Claims
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1. A method for fabricating a radio frequency identification tag device, the method comprising:
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providing a substrate comprising first and second major surfaces, wherein a first portion of the substrate comprises a connector tab;
providing a circuit pattern on a first major surface of a substrate, the circuit pattern comprising;
an antenna pattern comprising first and second ends;
a first connection pad and a second connection pad, wherein the first connection pad is located on the first major surface of the substrate within the connector tab;
a common capacitor plate in electrical communication with the antenna pattern; and
a plurality of tuning capacitor plates, each of the tuning capacitor plates in electrical communication with the antenna pattern through a tuning capacitor plate connection;
folding the connector tab along a connector tab fold line such that the first major surface of the substrate within the connector tab faces the first major surface of the substrate outside of the connector tab;
wherein the plurality of tuning capacitor plates are located on the connector tab or the common capacitor plate is located on the connector tab such that the plurality of tuning capacitor plates and the common capacitor plate form a capacitor after the folding; and
wherein the first connection pad faces the second connection pad after the folding. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
measuring a resonant frequency of the device; and
selectively severing at least one of the tuning capacitor plate connections.
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3. A method according to claim 1, wherein the circuit pattern further comprises a die connection site on the first major surface of the substrate, the die connection site in electrical communication with the antenna pattern.
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4. A method according to claim 3, further comprising attaching a die to the die connection site.
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5. A method according to claim 3, wherein the die connection site comprises an integrated die connection pad, and wherein the method further comprises separating the die connection site into a plurality of die connection terminals.
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6. A method according to claim 1, further comprising locating a dielectric layer between the common capacitor plate and each of the tuning capacitor plates.
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7. A method according to claim 6, wherein the dielectric layer comprises an adhesive.
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8. A method according to claim 6, wherein the dielectric layer comprises a backing and adhesive located on each of two major surfaces of the backing.
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9. A method according to claim 1, further comprising placing the first connection pad in electrical communication with the second connection pad.
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10. A method according to claim 9, further comprising locating an electrically conductive material between the first and second connection pads.
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11. A method according to claim 10, wherein the electrically conductive material comprises electrically conductive adhesive.
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12. A method according to claim 9, wherein the first and second connection pads are in direct contact with each other.
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13. A method according to claim 1, further comprising forming a separation line in the substrate before folding the connector tab, wherein the connector tab is defined by the connector tab fold line and the separation line.
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14. A method according to claim 13, wherein forming the separation line comprises cutting through the substrate.
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15. A method according to claim 1, wherein a second portion of the substrate forms a dielectric tab, and wherein the method comprises folding the dielectric tab along a dielectric tab fold line, and still further wherein the dielectric tab is located between the common capacitor plate and the plurality of tuning capacitor plates after folding of the dielectric tab and the connector tab.
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16. A method according to claim 15, further comprising forming a separation line in the substrate before folding the dielectric tab, wherein the dielectric tab is defined by the dielectric tab fold line and the separation line.
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17. A method according to claim 16, wherein forming the separation line comprises cutting through the substrate.
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18. A method according to claim 1, wherein providing a substrate further comprises providing a substrate web comprising a plurality of first portions, each of the first portions comprising a connector tab, and further wherein the substrate web comprises a plurality of circuit patterns.
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19. A method according to claim 18, further comprising separating the substrate web between adjacent circuit patterns.
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20. A method according to claim 19, wherein the separating is performed before folding the connector tabs.
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21. A method for fabricating a radio frequency identification tag device, the method comprising:
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providing a substrate comprising first and second major surfaces, wherein a first portion of the substrate comprises a connector tab;
providing a circuit pattern on a first major surface of a substrate, the circuit pattern comprising;
an antenna pattern comprising first and second ends;
a first connection pad and a second connection pad, wherein the first connection pad is located on the first major surface of the substrate within the connector tab;
a common capacitor plate in electrical communication with the antenna pattern; and
a plurality of tuning capacitor plates, each of the tuning capacitor plates in electrical communication with the antenna pattern through a tuning capacitor plate connection;
folding the connector tab along a connector tab fold line such that the first major surface of the substrate within the connector tab faces the first major surface of the substrate outside of the connector tab, wherein the plurality of tuning capacitor plates are located on the connector tab or the common capacitor plate is located on the connector tab such that the plurality of tuning capacitor plates and the common capacitor plate are located opposite each other after the folding, and further wherein the first connection pad faces the second connection pad after the folding;
locating a dielectric layer between the common capacitor plate and each of the tuning capacitor plates, wherein the common capacitor plate and the tuning capacitor plates are separated by the dielectric layer after the folding;
placing the first connection pad in electrical communication with the second connection pad;
measuring a resonant frequency of the device; and
selectively severing at least one of the tuning capacitor plate connections.
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22. A radio frequency identification tag device comprising:
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a substrate comprising first and second major surfaces, a first portion of the substrate forming a connector tab, wherein the substrate is folded along a connector tab fold line such that the first major surface of the substrate located within the connector tab faces the first major surface of the substrate outside of the connector tab;
an antenna located on the first major surface of the substrate;
a first connection pad located on the first major surface of the substrate within the connector tab;
a second connection pad located on the first major surface of the substrate outside of the connector tab, wherein the first and second connection pads face each other and are in electrical communication with each other; and
a capacitor comprising a common capacitor plate in electrical communication with the antenna and a plurality of tuning capacitor plates separated from the common capacitor plate by a dielectric layer, each of the plurality of the tuning capacitor plates in electrical communication with the antenna through a tuning capacitor plate connection, wherein only one of the common capacitor plate or the plurality of tuning capacitor plates is located within the connector tab. - View Dependent Claims (23, 24, 25, 26, 27, 28, 29, 30)
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31. A radio frequency identification tag device comprising:
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a substrate comprising first and second major surfaces, a first portion of the substrate forming a connector tab defined by a connector tab fold line and a separation line formed in the substrate, wherein the substrate is folded along the connector tab fold line such that the first major surface of the substrate located within the connector tab faces the first major surface of the substrate outside of the connector tab;
an antenna located on the first major surface of the substrate;
a first connection pad located on the first major surface of the substrate within the connector tab;
a second connection pad located on the first major surface of the substrate outside of the connector tab, wherein the first and second connection pads face each other and are in electrical communication with each other;
a capacitor comprising a common capacitor plate in electrical communication with the antenna and a plurality of tuning capacitor plates separated from the common capacitor plate by a dielectric layer, each of the plurality of the tuning capacitor plates in electrical communication with the antenna through a tuning capacitor plate connection, wherein only one of the common capacitor plate or the plurality of tuning capacitor plates is located within the connector tab; and
at least one disconnected tuning capacitor plate located opposite the common capacitor plate and separated from the common capacitor plate by the dielectric layer, wherein the disconnected tuning capacitor plate is not in
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Specification