An RFID system and tag, and a method for identifying objects using an RFID system are disclosed. In an embodiment, an RFID tag comprises a microchip for storing an identification sequence, a tag antenna coupled with the microchip for receiving and transmitting the RF signal; and a ferrous metal port
An RFID system and tag, and a method for identifying objects using an RFID system are disclosed. In an embodiment, an RFID tag comprises a microchip for storing an identification sequence, a tag antenna coupled with the microchip for receiving and transmitting the RF signal; and a ferrous metal portion disposed near the IC and the tag antenna. The ferrous metal portion is sensitive to, and heats up when subjected to, magnetic induction. The heat of the ferrous metal is propagated to the RFID tag such that the tag reaches its operating temperature more quickly.
대표청구항▼
1. An RFID system comprising: an RFID tag reader including: a transceiver for generating an RF signal;a reader antenna coupled to the transceiver for transmitting the RF signal; anda magnetic field generator, wherein the RFID tag reader stops generating a magnetic field when an RFID tag responds to
1. An RFID system comprising: an RFID tag reader including: a transceiver for generating an RF signal;a reader antenna coupled to the transceiver for transmitting the RF signal; anda magnetic field generator, wherein the RFID tag reader stops generating a magnetic field when an RFID tag responds to the RFID tag reader; andan RFID tag, wherein the RFID tag is heated from a non-operating temperature to an operating temperature, including: a microchip for storing an identification sequence;a tag antenna coupled with the microchip for receiving and transmitting the RF signal; anda ferrous metal portion, substantially similar in size to the RFID tag, disposed about the tag antenna and the microchip, wherein the ferrous metal portion is sensitive to magnetic induction, and wherein the ferrous metal portion is operative to heat the RFID tag from a non-operating temperature to an operating temperature. 2. The RFID system of claim 1, wherein the ferrous metal portion further comprises iron. 3. The RFID system of claim 1, wherein the RFID tag is adhered to a biological sample container. 4. The RFID system of claim 1, further comprising a packaging for affixing the RFID tag to a container. 5. The RFID system of claim 1, wherein the non-operating temperature is a cryogenic temperature. 6. The RFID system of claim 1, wherein the RFID tag is stored at the non-operating temperature of about −170° C., andwherein induction of a current in the ferrous metal portion by a magnetic induction wave generated by the magnetic field generator causes the RFID tag to be heated to the operating temperature of at least about −80° C. 7. A method for identifying an object comprising: using an RFID tag reader, generating a magnetic field,generating an RF signal, andtransmitting the RF signal;exposing an RFID tag at a non-operating temperature to the RF signal and the magnetic field, wherein the RFID tag includes a ferrous metal portion;with the magnetic field, inducing a current in the ferrous metal portion, raising a temperature of the ferrous metal portion which increases the temperature of the RFID tag from a non-operating temperature to an operating temperature; andon the RFID tag, in response to the temperature of the RFID tag reaching an operating temperature,converting the RF signal to a current, andtransmitting data stored on a microchip on the RFID tag to the RFID tag reader; andon the RFID tag reader, in response to receiving the data stored on the microchip on the RFID tag, ceasing to generate a magnetic field. 8. The method of claim 7, wherein the ferrous metal portion further comprises a ferrous metal sheet. 9. The method of claim 7, further comprising adhering the RFID tag to a biological sample container. 10. The method of claim 7, further comprising covering the RFID tag with a packaging. 11. The method of claim 7, wherein the non-operating temperature is a cryogenic temperature. 12. The method of claim 7, wherein the operating temperature is at least about −80° C.
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이 특허에 인용된 특허 (5)
Emmert, David R., High temperature tag having enclosed transceiver.
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