Hybrid tag for radio frequency identification system
First Claim
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1. A method for reading data from a tag device, the method comprising:
- capturing, by the tag device, an optical clock signal transmitted from an interrogator device to the tag device, wherein the captured optical clock signal is utilized by the tag device to control clocking functions of the tag device and to generate power for operating components of the tag device;
converting the optical clock signal into an electrical clock signal which represents the optical clock signal;
utilizing the electrical clock signal to control state machine control circuitry on the tag device;
generating a regulated supply voltage from the electrical clock signal, wherein the regulated supply voltage is utilized as a bias voltage for powering the state machine control circuitry and other components of the tag device;
performing a memory access operation to read out tag data that is stored in a memory of the tag device using the electrical clock signal;
generating a serial data bit stream comprising the read out tag data;
transmitting the serial data bit stream to the interrogator device;
wherein transmitting the serial data bit stream to the interrogator device comprises;
utilizing a loop antenna on the tag device to magnetically couple radio frequency (RF) power from an unmodulated RF carrier signal applied to an RF antenna of the interrogator device; and
changing an impedance of the loop antenna on the tag device in response to changes in logic levels of data bits of the serial data bit stream, wherein changing the impedance of the loop antenna modulates the RF power on the loop antenna and causes modulated RF power encoded with the serial data bit stream to be reflected back to the RF antenna of the interrogator device;
wherein changing the impedance of the loop antenna on the tag device in response to changes in the logic levels of the data bits of the serial data bit stream, comprises;
applying the serial data bit stream to switching circuitry; and
operating the switching circuitry to selectively connect and disconnect the loop antenna on the tag device to a ground terminal, based on the logic levels of the data bits in the serial data bit stream applied to the switching circuitry,wherein the the method is performed by the tag device.
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Abstract
RFID (radio frequency identification) systems are provided in which tag and interrogator devices implement a hybrid framework for signaling including an optical transmitter/receiver system and an RF transmitter/receiver system. For instance, an RFID tag device includes: optical receiver circuitry configured to receive an optical signal having an embedded clock signal from an interrogator device, and convert the optical signal into an electrical signal comprising the embedded clock signal; clock extraction circuitry configured to extract the embedded clock signal from the electrical signal, and output the extracted clock signal as a clock signal for controlling clocking functions of the tag device; voltage regulator circuitry configured to generate a regulated supply voltage from the electrical signal, wherein the regulated supply voltage is utilized as a bias voltage for components of the tag device; and data transmitter circuitry configured to wirelessly transmit tag data to the interrogator device.
76 Citations
12 Claims
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1. A method for reading data from a tag device, the method comprising:
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capturing, by the tag device, an optical clock signal transmitted from an interrogator device to the tag device, wherein the captured optical clock signal is utilized by the tag device to control clocking functions of the tag device and to generate power for operating components of the tag device; converting the optical clock signal into an electrical clock signal which represents the optical clock signal; utilizing the electrical clock signal to control state machine control circuitry on the tag device; generating a regulated supply voltage from the electrical clock signal, wherein the regulated supply voltage is utilized as a bias voltage for powering the state machine control circuitry and other components of the tag device; performing a memory access operation to read out tag data that is stored in a memory of the tag device using the electrical clock signal; generating a serial data bit stream comprising the read out tag data; transmitting the serial data bit stream to the interrogator device; wherein transmitting the serial data bit stream to the interrogator device comprises; utilizing a loop antenna on the tag device to magnetically couple radio frequency (RF) power from an unmodulated RF carrier signal applied to an RF antenna of the interrogator device; and changing an impedance of the loop antenna on the tag device in response to changes in logic levels of data bits of the serial data bit stream, wherein changing the impedance of the loop antenna modulates the RF power on the loop antenna and causes modulated RF power encoded with the serial data bit stream to be reflected back to the RF antenna of the interrogator device; wherein changing the impedance of the loop antenna on the tag device in response to changes in the logic levels of the data bits of the serial data bit stream, comprises; applying the serial data bit stream to switching circuitry; and operating the switching circuitry to selectively connect and disconnect the loop antenna on the tag device to a ground terminal, based on the logic levels of the data bits in the serial data bit stream applied to the switching circuitry, wherein the the method is performed by the tag device. - View Dependent Claims (2, 3, 4)
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5. A tag device, comprising;
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a substrate comprising components integrally formed thereon, wherein the components comprise; state machine control circuitry configured to control functions of the tag device; a non-volatile memory configured to store tag data; optical receiver circuitry configured to capture an optical clock signal transmitted from an interrogator device, and convert the optical clock signal into an electrical signal which is utilized to generate a clock signal, which represents the optical clock signal, to control clocking functions of the tag device, and to generate power for operating components of the tag device; clock extraction circuitry configured to generate the clock signal from the electrical signal output from the optical receiver circuitry, which is utilized for controlling the clocking functions of the tag device; voltage regulator circuitry configured to generate a regulated supply voltage from the electrical signal output from the optical receiver circuitry, wherein the regulated supply voltage is utilized as a bias voltage for the components of the tag device; and data transmitter circuitry configured to wirelessly transmit the tag data to the interrogator device, wherein the data transmitter circuitry comprises; a loop antenna; and switching circuitry that is configured to change an impedance of the loop antenna in response to a serial data bit stream which comprises the tag data that is read out from the non-volatile memory. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12)
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Specification
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Current AssigneeInternational Business Machines Corporation
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Original AssigneeInternational Business Machines Corporation
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InventorsFriedman, Daniel J., Liu, Duixian, Sanduleanu, Mihai A.
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Primary Examiner(s)Sandhu, Amritbir
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Application NumberUS15/498,424Publication NumberTime in Patent Office426 DaysField of Search398115, 398128, 398138, 398140, 340 101, 340 102, 340 103, 340 1032, 340 1033, 340 1034, 340 104, 340 1041, 340 1042, 340 105, 340 1051, 340 1052, 3405721, 3405724US Class CurrentCPC Class CodesG06K 19/0723 the record carrier comprisi...G06K 7/10366 the interrogation device be...G06K 7/1097 Optical sensing of electron...
