Product identification tag device and reader
First Claim
1. A radio frequency (RF) ID tag device for responding to an RF reader device by transmitting a unique signal, comprising:
- an antenna, generally tuned to a first radio frequency signal transmitted by an RF reader device, said signal being in a first frequency band, a power supply connected to the antenna, including an energy store capable of storing a portion of energy from the first RF signal from a reader device, received via the antenna and stored in the energy store, a signal transmitter connected to the power supply to draw energy from the energy store to send out an RF data signal on a second frequency band separated from said first frequency band, the separation being sufficient substantially to avoid interference between the first radio frequency signal sent by a reader and the RF data signal, a data source with data for the particular ID tag, connected to the signal transmitter to generate said data signal, the antenna, the power supply, the signal transmitter and the data source all being formed in a single integrated circuit.
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Accused Products
Abstract
An electronic identification tag, usually in very small size, responds to a reader with an identification code unique to the object to which the tag is attached. The stand-alone device responds to a reader signal by storing energy received from the signal, then using the stored energy to generate another signal that is encoded with identification information. In operation, a reader generates RF energy which can reach a multiplicity of such tags over a distance of several meters. The system minimizes power requirements for the tag by minimizing intelligence in the IC. Use of a transmit frequency which is different from the reader'"'"'s power frequency reduces interference between the power pulse and information pulse, eliminates the need for filters and enables the multiplied clock reference frequency as the transmit carrier frequency.
99 Citations
13 Claims
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1. A radio frequency (RF) ID tag device for responding to an RF reader device by transmitting a unique signal, comprising:
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an antenna, generally tuned to a first radio frequency signal transmitted by an RF reader device, said signal being in a first frequency band, a power supply connected to the antenna, including an energy store capable of storing a portion of energy from the first RF signal from a reader device, received via the antenna and stored in the energy store, a signal transmitter connected to the power supply to draw energy from the energy store to send out an RF data signal on a second frequency band separated from said first frequency band, the separation being sufficient substantially to avoid interference between the first radio frequency signal sent by a reader and the RF data signal, a data source with data for the particular ID tag, connected to the signal transmitter to generate said data signal, the antenna, the power supply, the signal transmitter and the data source all being formed in a single integrated circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A radio frequency (RF) communication system with a reader and a plurality of ID tags that respond to the reader by sending an identifying code back to the reader upon receiving an interrogating signal from the reader, comprising:
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a reader for interrogating all of the tags, the reader including a transmitter for transmitting an RF power signal that interrogates the tags, the power signal being on a frequency band and having a center frequency, and the transmitter of the reader having means for sweeping the center frequency of the power signal so that the center frequency varies over time back and forth between a lower frequency and a higher frequency, and the reader including a receiving circuit with a receiving antenna, for receiving a responsive data signal back from each tag interrogated with the RF power signal, and a plurality of RF ID tag devices within receiving range of the reader'"'"'s power signal, each RF ID tag having a receiving antenna generally tuned to said center frequency of the reader'"'"'s interrogating RF power signal, a power supply connected to the antenna, with an energy store capable of storing a portion of energy from the reader'"'"'s RF power signal, received via the antenna, a signal transmitter connected to the power supply for sending out an RF data signal from the tag device in response to being powered by the reader'"'"'s power signal, and a data source connected to the signal transmitter for generating the data signal, whereby variations from tag to tag in the tuning of the antenna to said center frequency of the RF power signal from the reader, due to manufacturing, environmental or other variations, are accommodated by the sweeping variation of the center frequency of the RF power signal so that at some point in the sweep of the power signal frequency, the antenna on the tag is very closely tuned to the RF power signal.
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13. A radio frequency (RF) communication system with a reader and a plurality of ID tags that respond to the reader by sending an identifying code back to the reader upon receiving an interrogating signal from the reader, comprising:
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a reader for interrogating all of the tags, the reader including a transmitter for transmitting an RF power signal that interrogates the tags, the power signal being on a frequency band and having a center frequency, and the transmitter of the reader transmitting the power signal in time-spaced pulses rather than continuously, the pulses having a high peak power such that average signal power over one second is much less than peak power, and the reader including a receiving circuit with a receiving antenna, for receiving a responsive data signal back from each tag interrogated with the RF power signal, and a plurality of RF ID tag devices within receiving range of the reader'"'"'s power signal, each RF ID tag having a receiving antenna generally tuned to said center frequency of the reader'"'"'s interrogating RF power signal, a power supply connected to the antenna, with an energy store capable of storing a portion of energy from the reader'"'"'s RF power signal, received via the antenna, a signal transmitter connected to the power supply for sending out an RF data signal from the tag device in response to being powered by the reader'"'"'s power signal, and a data source connected to the signal transmitter for generating the data signal, whereby greater power can be received and stored in the tag'"'"'s power supply due to the high peak power pulses transmitted by the reader, as compared to t a continuous power signal.
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Specification