Electromagnetic shield to prevent surreptitious access to contactless smartcards
First Claim
1. A means for shielding at least one contactless smartcard or RFID tag from external magnetic fields which can result in surreptitious, wireless communication between the contactless smartcard or RFID tag and a remote transceiver comprising:
- at least one sheet of magnetic shielding material shaped to substantially surround the at least one contactless smartcard or RFID tag and characterized by a high initial and maximum magnetic permeability, contiguous electrical conductivity of any two points on said at least one sheet of magnetic shielding material, and sufficient thickness to reduce the magnetic field strength inside of the space enclosed by said at least one sheet of magnetic shielding material below the threshold required to induce a sufficient amount of power in a microchip embedded in the contactless smartcard or RFID tag and result in wireless communication between the contactless smartcard or RFID tag and a remote transceiver not in physical contact with the contactless smartcard or RFID tag;
a pair of plastic reinforcing shells which physically hold the at least one contactless smartcard or RFID tag temporarily and securely within the magnetic shielding material; and
said at least one sheet of magnetic shielding material being formed into a U-shape with a plurality of capture tabs along the edges thereof, said plurality of capture tabs being sized to fit into a plurality of shield capture bosses in each plastic reinforcing shell, said pair of plastic reinforcing shells retaining said magnetic shielding material.
1 Assignment
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Accused Products
Abstract
An Electromagnetic Shield for Smartcards provides shielding of contactless smartcards or RFID tags from electromagnetic radiation which imparts energy to power the contactless smartcards or RFID tags and thus preventing surreptitious, wireless exchanges of digital data with a remote transceiver. The electromagnetic shield is made of a soft magnetic alloy with a very high initial and maximum magnetic permeability, which has been fully hydrogen annealed to develop optimum magnetic shielding properties. In the preferred embodiment, this magnetic shielding material is sandwiched between two plastic reinforcing shells which allow very thin shielding materials to be used with little regard for their resistance to permanent deformation. The relatively high intrinsic electrical conductivity of the magnetic shielding material sufficiently simulates a Faraday cage to further shield a contactless smartcard/RFID tag from electric fields as well. Four embodiments for contactless smartcards as well as one for a military identification tag and one for a pill shaped RFID tag are presented.
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Citations
13 Claims
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1. A means for shielding at least one contactless smartcard or RFID tag from external magnetic fields which can result in surreptitious, wireless communication between the contactless smartcard or RFID tag and a remote transceiver comprising:
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at least one sheet of magnetic shielding material shaped to substantially surround the at least one contactless smartcard or RFID tag and characterized by a high initial and maximum magnetic permeability, contiguous electrical conductivity of any two points on said at least one sheet of magnetic shielding material, and sufficient thickness to reduce the magnetic field strength inside of the space enclosed by said at least one sheet of magnetic shielding material below the threshold required to induce a sufficient amount of power in a microchip embedded in the contactless smartcard or RFID tag and result in wireless communication between the contactless smartcard or RFID tag and a remote transceiver not in physical contact with the contactless smartcard or RFID tag; a pair of plastic reinforcing shells which physically hold the at least one contactless smartcard or RFID tag temporarily and securely within the magnetic shielding material; and said at least one sheet of magnetic shielding material being formed into a U-shape with a plurality of capture tabs along the edges thereof, said plurality of capture tabs being sized to fit into a plurality of shield capture bosses in each plastic reinforcing shell, said pair of plastic reinforcing shells retaining said magnetic shielding material. - View Dependent Claims (2, 3, 4, 5)
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6. A device for shielding at least one contactless smartcard or RFID tag from an external magnetic field, comprising:
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a reinforcing structure being a pair of non-conductive reinforcing shells; at least one sheet of magnetic shielding material being shaped to substantially surround said at least one contactless smartcard or RFID tag, said magnetic shielding material having a high initial and maximum magnetic permeability, said magnetic shielding material reducing the strength of the external magnetic field to prevent communication between the at least one contactless smartcard or RFID tag and a remote transceiver, said magnetic shielding material being retained inside said reinforcing structure; and said at least one sheet of magnetic shielding material being formed in a U-shape with a plurality of capture tabs along the edges thereof, said plurality of capture tabs being sized to fit into a plurality of shield capture bosses in each reinforcing shell. - View Dependent Claims (7, 8, 9)
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10. A device for shielding at least one contactless smartcard or RFID tag from an external magnetic field, comprising:
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a reinforcing structure being a pair of non-conductive reinforcing shells; at least one sheet of magnetic shielding material being shaped to substantially surround said at least one contactless smartcard or RFID tag, said magnetic shielding material having a high initial and maximum magnetic permeability, said magnetic shielding material reducing the strength of the external magnetic field to prevent communication between the at least one contactless smartcard or RFID tag and a remote transceiver, said magnetic shielding material being retained inside said reinforcing structure; said at least one sheet of magnetic shielding material being fabricated from a high nickel content alloy with sufficient electrical conductivity to shield capture the at least one contactless smartcard or RFID tag from electric fields; and said at least one sheet of magnetic shielding material being formed in a U-shape with a plurality of capture tabs along the edges thereof, said plurality of capture tabs being sized to fit into a plurality of shield bosses in each said plastic reinforcing shell. - View Dependent Claims (11, 12, 13)
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Specification