Energy harvesting for battery-less RFID tag devices with internal transmitters
First Claim
1. A radio frequency identification (RFID) tag device, comprising:
- a first transceiver at a first radio frequency (RF) interface and coupled to an energy harvesting component and including an RF antenna assembly that operates at a first RF frequency and is operable to receive RF energy from an RF source;
an energy conversion component converting RF energy inductively obtained from the energy harvesting component to DC;
an energy storing component comprising a capacitor for storing energy output from the energy conversion component;
a non-transitory memory storing information;
a controller comprising a processor coupled to the non-transitory memory; and
a second transceiver at a second RF interface and operable as an RFID transceiver comprising an RFID antenna assembly that operates at a second RF frequency to receive a RFID read signal and transmit the information stored in the non-transitory memory to an RFID reader, wherein the RFID tag device lacks a battery, wherein the capacitor'"'"'s power provided by the energy harvesting component and the energy conversion component power operation of the controller and the RFID transceiver, and wherein the RFID transceiver utilizes backscattering of the read signal in conjunction with energy harvested by the energy harvesting component to transmit the information in response to the read signal;
wherein the controller is operable to transmit a halt signal to the RF source via the first transceiver when the capacitor is sufficiently charged to provide energy to operate the second transceiver to transmit the information stored in the non-transitory memory to the RFID reader, and is further operable to, while the RFID transceiver is transmitting the information to the RFID reader, to transmit a signal to the RF source to recommence transmitting to the first RF interface, and wherein the controller is further operable to repeat the halt and recommence transmitting until the second RF interface is finished transmitting to the RFID reader.
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Accused Products
Abstract
A battery-less RFID tag device with an RFID antenna assembly and RFID transmitter, which harvests power from an RF source is disclosed. The RF source can be a mobile phone, and embedded system, and the like. The RFID device can include an energy harvesting component, an energy conversion component, an energy storing component, a non-transitory memory, a controller, and an RFID transmitting component. The energy harvesting component can inductively harvest energy from RF transmissions, which charges a capacitor to power other RFID device components, including the RFID transmitter. In one embodiment, the battery-less RFID tag device can be utilized in conjunction with a mobile phone for vehicle toll payments, which are RFID based.
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Citations
20 Claims
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1. A radio frequency identification (RFID) tag device, comprising:
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a first transceiver at a first radio frequency (RF) interface and coupled to an energy harvesting component and including an RF antenna assembly that operates at a first RF frequency and is operable to receive RF energy from an RF source; an energy conversion component converting RF energy inductively obtained from the energy harvesting component to DC; an energy storing component comprising a capacitor for storing energy output from the energy conversion component; a non-transitory memory storing information; a controller comprising a processor coupled to the non-transitory memory; and a second transceiver at a second RF interface and operable as an RFID transceiver comprising an RFID antenna assembly that operates at a second RF frequency to receive a RFID read signal and transmit the information stored in the non-transitory memory to an RFID reader, wherein the RFID tag device lacks a battery, wherein the capacitor'"'"'s power provided by the energy harvesting component and the energy conversion component power operation of the controller and the RFID transceiver, and wherein the RFID transceiver utilizes backscattering of the read signal in conjunction with energy harvested by the energy harvesting component to transmit the information in response to the read signal; wherein the controller is operable to transmit a halt signal to the RF source via the first transceiver when the capacitor is sufficiently charged to provide energy to operate the second transceiver to transmit the information stored in the non-transitory memory to the RFID reader, and is further operable to, while the RFID transceiver is transmitting the information to the RFID reader, to transmit a signal to the RF source to recommence transmitting to the first RF interface, and wherein the controller is further operable to repeat the halt and recommence transmitting until the second RF interface is finished transmitting to the RFID reader. - View Dependent Claims (2, 3, 4, 5, 6, 7, 9)
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8. The RFID tag of device 1, wherein the energy harvesting and energy conversion components comprise:
piezoelectric circuitry for converting kinetic energy into electrical energy for storage by the energy storage component.
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10. A vehicle RFID toll system comprising:
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a battery-less radio frequency identification (RFID) tag device powered at a first RF interface for using a first RF transceiver, by harvesting RF energy at the first RF interface from an RF source to charge an internal capacitor of the RFID tag, which enables an internal RFID transceiver at a second RF interface to transmit information to a remote RFID toll reader in response to a read signal from the RFID toll reader, and wherein the RFID transceiver utilizes backscattering of the read signal in conjunction with energy harvested via the first RF interface to transmit the information in response to the read signal; and the RF source wirelessly and communicatively linked to the battery-less RFID tag device at the first RF interface, wherein the RF source detects a proximity to the RFID toll reader and in response to this detection transmits the RF energy that is harvested by the battery-less RFID tag device; wherein the battery-less RFID tag device is operable to transmit a halt signal to the RF source via the first RF transceiver when the capacitor is sufficiently charged to provide energy to operate the second RF interface, and is further operable to, while the RFID transceiver is transmitting the information to the RFID reader, to transmit a signal to the RF source to recommence transmitting to the first RF interface, and wherein the controller is further operable to repeat the halt and recommence transmitting until the second RF interface is finished transmitting to the RFID reader. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. A radio frequency identification (RFID) tag device comprising:
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a first RF interface for a first RF transceiver including a first RF antenna assembly that operates at a first RF frequency which is coupled to an RF energy harvesting component that is configured to inductively capture energy from a transceiver of a mobile phone via the first RF interface; an RF rectifier and DC conversion circuitry configured to charge a capacitor using the captured energy from the first RF antenna; the capacitor is further configured to provide power, derived from the charge, to a microcontroller and a RFID tag transceiver; and a second RF interface, coupled to the RFID transceiver, and including a second RF antenna assembly, the second RF interface including the second RF antenna assembly connected to the RFID transceiver and configured to receive a read signal from a RFID reader and transmit RFID information to the RFID reader in response to the read signal from the RFID reader, and wherein the RFID transceiver utilizes backscattering of the read signal in conjunction with energy harvested by the energy harvesting component to transmit the information in response to the read signal; and a controller coupled to the first RF transceiver, the RFID transceiver, and the capacitor, and wherein the controller is operable to transmit a halt signal to the mobile phone via the first transceiver when the capacitor is sufficiently charged to provide energy to operate the RFID transceiver to transmit the information stored in a non-transitory memory to the RFID reader, and wherein the controller is further operable, while the RFID transceiver is transmitting to the RFID reader, to transmit a signal to the mobile phone to recommence transmitting to the first RF interface, and wherein the controller is further operable to repeat the halt and recommence transmitting until the second RF interface is finished transmitting to the RFID reader. - View Dependent Claims (20)
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Specification