Battery assisted tag and RFID system
First Claim
Patent Images
1. An RFID system, comprising:
- at least one RFID tag comprising;
a receiver, coupled to receive an input RF signal from an RFID reader, the receiver including a biased transistor detector that harvests a current from the input RF signal;
wherein the at least one RFID tag is operable within a plurality of dynamic range modes corresponding to a plurality of dynamic range states, andwherein the plurality of dynamic range modes comprise;
a square law mode;
a peak detection mode;
an active transmitter that transmits within a first power range;
a backscatter transmitter that transmits within a second power range;
a memory; and
a directory system,wherein the tag is adapted for accessing one or more capabilities files and one or more settings files via the directory system,wherein the directory system, the one or more capabilities files, and the one or more settings files are stored on the memory,wherein the tag has a plurality of capabilities, the capabilities comprising power-leveling,wherein the tag is adapted for informing one or more RFID readers of one or more of the capabilities,wherein the one or more settings files enable the one or more RFID readers to control the one or more tag capabilities,wherein the plurality of dynamic range modes includes a low-power mode,wherein the tag responds only to an activating RFID reader that activated the tag from a hibernation mode,wherein each of the dynamic range states overlap at least in part,wherein the biased transistor detector is a MOS transistor that operates in weak inversion during the square law mode,wherein the plurality of dynamic range modes comprise;
a square law mode; and
a peak detection modewherein the dynamic range states are characterized by a dynamic range state overlap region,wherein the RFID tag is adapted for operating in both square law mode and peak detection mode in the dynamic range state overlap region,wherein the at least one RFID tag selects either the active transmitter or the backscatter transmitter as being the transmitter to be used on the at least one RFID tag for a period of time, andwherein the receiver further comprises;
an impedance up-conversion that increases sensitivity of the biased transistor detector;
a low noise amplifier that increases sensitivity of the biased transistor detector;
a switchable RF amplifier that operates relative to a selected mode within the plurality of modes; and
automatic gain control adapted for controlling;
a gain applied to the harvested current;
a continuous RF attenuator; and
a continuous RF amplifier.
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Abstract
Embodiments of the present invention provide for RFID systems that employ a plurality of battery assisted semi-passive and semi-active RFID tags with optimized system operation. The RFID tags feature receivers operating with multiple dynamic range states with square law mode for improved sensitivity, and part time active transmit in the tag to supplement its backscatter transmitter and thus support system operation taking full advantage of the sensitivity of the tag. In certain embodiments of the invention, tag sensitivity and reliability are further enhanced by the use pseudo-random sequence based receiver training and frame synchronizing.
16 Citations
1 Claim
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1. An RFID system, comprising:
at least one RFID tag comprising; a receiver, coupled to receive an input RF signal from an RFID reader, the receiver including a biased transistor detector that harvests a current from the input RF signal; wherein the at least one RFID tag is operable within a plurality of dynamic range modes corresponding to a plurality of dynamic range states, and wherein the plurality of dynamic range modes comprise; a square law mode; a peak detection mode; an active transmitter that transmits within a first power range; a backscatter transmitter that transmits within a second power range; a memory; and a directory system, wherein the tag is adapted for accessing one or more capabilities files and one or more settings files via the directory system, wherein the directory system, the one or more capabilities files, and the one or more settings files are stored on the memory, wherein the tag has a plurality of capabilities, the capabilities comprising power-leveling, wherein the tag is adapted for informing one or more RFID readers of one or more of the capabilities, wherein the one or more settings files enable the one or more RFID readers to control the one or more tag capabilities, wherein the plurality of dynamic range modes includes a low-power mode, wherein the tag responds only to an activating RFID reader that activated the tag from a hibernation mode, wherein each of the dynamic range states overlap at least in part, wherein the biased transistor detector is a MOS transistor that operates in weak inversion during the square law mode, wherein the plurality of dynamic range modes comprise; a square law mode; and a peak detection mode wherein the dynamic range states are characterized by a dynamic range state overlap region, wherein the RFID tag is adapted for operating in both square law mode and peak detection mode in the dynamic range state overlap region, wherein the at least one RFID tag selects either the active transmitter or the backscatter transmitter as being the transmitter to be used on the at least one RFID tag for a period of time, and wherein the receiver further comprises; an impedance up-conversion that increases sensitivity of the biased transistor detector; a low noise amplifier that increases sensitivity of the biased transistor detector; a switchable RF amplifier that operates relative to a selected mode within the plurality of modes; and automatic gain control adapted for controlling; a gain applied to the harvested current; a continuous RF attenuator; and a continuous RF amplifier.
Specification