Integrated circuits with persistent data storage
First Claim
1. A radio frequency identification (RFID) transponder, comprising:
- an antenna to receive an interrogating RF signal and to receive a command for a state under a communication protocol, the communication protocol being a half duplex, reader talk first protocol;
a memory to store data;
a first circuit to demodulate the interrogating RF signal, the interrogating RF signal being amplitude modulated with a minimum of 90% modulation depth during a first portion of half duplex community;
a second circuit to backscatter modulate the interrogating RF signal by changing a phase of the interrogating RF signal during a second portion of half duplex communication;
logic to control the transponder in response to the command; and
a state capacitor coupled to the logic and adapted to maintain the state despite a loss in power due to a lapse in receipt of the interrogating RF signal;
wherein the state capacitor is adapted to maintain the state for at least 1 second despite the loss of power.
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Accused Products
Abstract
The circuitry introduced in this invention selectively slows down the functioning of an electronic circuit by maintaining a particular state for a prolonged period of time. This circuitry is used not only to achieve the desired effect in maintaining security from electronic thieves trying to circumvent codes but also in other applications such as enabling a circuit to continue to function in the event of a brief loss of power. For example, in an RFID system, if a reader is frequency hopping, a tag loses power for as long as about 400 milliseconds when the reader changes to other frequencies. In a preferred embodiment, the disclosed circuitry is used in conjunction with a destruct sequence.
85 Citations
56 Claims
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1. A radio frequency identification (RFID) transponder, comprising:
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an antenna to receive an interrogating RF signal and to receive a command for a state under a communication protocol, the communication protocol being a half duplex, reader talk first protocol; a memory to store data; a first circuit to demodulate the interrogating RF signal, the interrogating RF signal being amplitude modulated with a minimum of 90% modulation depth during a first portion of half duplex community; a second circuit to backscatter modulate the interrogating RF signal by changing a phase of the interrogating RF signal during a second portion of half duplex communication; logic to control the transponder in response to the command; and a state capacitor coupled to the logic and adapted to maintain the state despite a loss in power due to a lapse in receipt of the interrogating RF signal;
wherein the state capacitor is adapted to maintain the state for at least 1 second despite the loss of power. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A RFID tag with persistent data storage, the tag comprising:
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an antenna to receive an interrogating RF beam and to receive a command for a bit state under a communication protocol, the interrogating RF beam providing power to the RFID tag; and an integrated circuit coupled to the antenna, the integrated circuit being adapted to maintain the bit state despite a temporary loss of power, the integrated circuit comprising; memory to store an identifier; a charge storage portion; logic for tag operation under the protocol, the protocol being reader talk first and half duplex; and logic coupled to the charge storage portion;
wherein the charge storage portion is adapted to maintain said bit state for at least 1 second despite the loss of power. - View Dependent Claims (12, 13, 14, 15)
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16. A RFID tag with persistent data storage, the tag comprising:
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an antenna to receive an interrogating RF beam and to receive a command for a bit state under a communication protocol, the interrogating RF beam providing power to the RFID tag; and an integrated circuit coupled to the antenna, the integrated circuit being adapted to maintain the bit state despite a temporary loss of power, the intergrated circuit comprising; memory to store an identifier; a charge storage portion; logic for tag operation under the protocol, the protocol being reader talk first and half duplex; and logic coupled to the charge storage portion;
wherein the charge storage portion is adapted to maintain said bit state for at least 1 second despite the loss of power, wherein the charge storage portion comprises at least one of a SiO2, Si3N4, and Ferrorelectric material. - View Dependent Claims (17, 18)
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19. A passive RFID tag with persistent data storage, the tag comprising:
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an antenna to receive a state command which places the tag in a state; a circuit to backscatter modulate using a phase shift; a charge storage portion; and a logic coupled to the charge storage portion, the logic configured to maintain the tag in the state for at least 1 second despite a power loss.
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20. A passive RFID tag with persistent data storage, the tag comprising:
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an antenna to receive an interrogating RF signal from a frequency hopping interrogator the interrogating RF signal being amplitude modulated with a modulation depth of at least 90%; and an integrated circuit, the integrated circuit including a tenacious latch, wherein the latch is configured to maintain a bit for at least one second during a power loss, wherein the bit is used to manage reading the tag in an RF field common to multiple readers. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29)
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30. A passive RFID tag with persistent data storage, the tag comprising:
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an antenna to receive an interrogating radio frequency signal from a frequency hopping interrogator, the interrogating radio frequency signal providing power to the tag and no data during a portion of a half duplex communication; and a tenacious node to maintain the tag in a state for at least 1 second despite a loss of power.
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31. A method for operating an RFID tag, the method comprising:
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receiving an interrogating RF signal, the interrogating RF signal providing power and no data to the tag during a portion of half duplex communication; backscatter modulating the RF signal by in the base of the RF signal during the portion; latching a first bit; and maintaining, by the tag, the first bit during loss of the power, wherein the maintaining is for at least 1 second, and wherein the loss of the power results from frequency hopping of an interrogator. - View Dependent Claims (32, 33)
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34. A method for operating an RFID tag, the method comprising:
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receiving an interrogating RF signal, the interrogating RF signal providing power and no data to the tag during a portion of half duplex communication; backscatter modulating the RF signal by changing the phase of the RF signal during the portion; latching a first bit; maintaining, by the tag, the first bit during loss of the power, wherein the maintaining is for at least 1 second, and wherein the first bit is used to manage reading of the tag in an RF space common to multiple readers; latching a second bit; and maintaining, by the tag, the second bit for at least 400 milliseconds during the power loss. - View Dependent Claims (35, 36)
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37. A method for operating a passive RFID tag, the method comprising:
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listening by the tag for an interrogating RF signal, the interrogating RF signal providing power to the passive tag; latching a code bit; and maintaining, by the passive tag, the latched code bit for at least 1 second during a power loss, wherein the interrogating RF signal is amplitude modulated with a minimum of 90% modulation depth. - View Dependent Claims (38)
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39. A method for operating an RFID tag comprising:
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receiving an RF interrogating signal, the interrogating signal including a command for a state; outputting from a circuit in the tag a logic value to place the tag in the state; charging a capacitor using the interrogating signal; and discharging the capacitor to maintain an output from the circuit at the logic value even when an interruption in the interrogating signal changes an input voltage to the circuit, wherein discharging the capacitor maintains the output of the circuit at the logic value for at least 1 second. - View Dependent Claims (40)
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41. A system comprising:
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a frequency hopping reader transmitting an RF interrogation signal under a communication protocol which is a half duplex, reader talk first protocol, the reader comprising an antenna and a transceiver; and a beam powered RFID tag receiving the RF interrogation signal, the RFID tag comprising circuitry to maintain the tag in a state during a power loss resulting from a frequency hop, wherein the circuitry maintains the tag in the state for at least 1 second during the power loss, wherein the interrogation signal is amplitude modulated with a minimum of 90% modulation depth during a first portion of half duplex communication and wherein the RFID tag backscatter modulates the interrogation signal by changing a phase of the interrogation signal during a second portion of the half duplex communication. - View Dependent Claims (42, 43, 44, 45, 46)
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47. A system comprising:
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circuitry to transmit, through an RF interrogation signal, a state command to an RF powered RFID tag with persistent data storage, the tag comprising a capacitor coupled to logic and adapted to maintain the tag in a state for at least 1 second during a power loss; and circuitry to receive a backscatter modulated signal from the tag, wherein the interrogation signal is amplitude modulated with a minimum of 90% modulation depth during a first portion of half duplex communication and wherein the RFID tag backscatter modulates the interrogation signal by changing a phase of the interrogation signal during a second portion of the half duplex communication.
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48. An integrated circuit with persistent data storage, the integrated circuit comprising:
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a first circuit to receive an RE interrogating signal, the RF interrogating signal providing power to the integrated circuit; a second circuit to control a function; a third circuit to backscatter modulate the RF interrogating for half duplex communication; and a state capacitor coupled to the second circuit and adapted to maintain the integrated circuit in a state during a power loss, wherein the state capacitor is adapted to maintain the integrated circuit in the state for at least 1 second during a power loss. - View Dependent Claims (49, 50, 51)
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52. A passive RFID tag with persistent data storage, the tag comprising:
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an antenna to receive an interrogating RF signal; and an integrated circuit, the integrated circuit including a tenacious latch, wherein the latch is configured to maintain a bit for at least one second during a power loss, and wherein the power loss results from frequency hopping of an interrogator, wherein the latch includes a dielectric capacitor and a junction capacitor. - View Dependent Claims (53, 54, 55, 56)
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Specification