Multi-mode radio frequency device
First Claim
Patent Images
1. A transponder device, comprising:
- a radio frequency identification transponder having at least an oscillator circuit and a microcontroller and configured to operate in at least one of a plurality of modes of operation and to change modes of operation in accordance with the strength of a received radio frequency signal, the modes of operation comprising at least two of a first mode in which the oscillator circuit operates and the microcontroller does not operate in response to a first strength of the received radio signal, a second mode in which the oscillator circuit and the microcontroller both operate in response to a second strength of the received radio signal, and a third mode in which neither the oscillator circuit nor the microcontroller operate in response to a third strength of the received radio frequency signal.
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Abstract
A transponder device having multiple modes of operation, such as an active mode and a passive mode, wherein the modes of operation are selected in response to the strength of a received radio frequency signal. A communication system is also provided having a transceiver configured to transmit a radio frequency signal and to receive a responsive signal, and a transponder configured to operate in a plurality of modes and to activate modes of operation in response to the radio frequency signal. Ideally, each mode of operation is activated and deactivated independent of the other modes, although two or more modes may be concurrently operational.
130 Citations
19 Claims
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1. A transponder device, comprising:
a radio frequency identification transponder having at least an oscillator circuit and a microcontroller and configured to operate in at least one of a plurality of modes of operation and to change modes of operation in accordance with the strength of a received radio frequency signal, the modes of operation comprising at least two of a first mode in which the oscillator circuit operates and the microcontroller does not operate in response to a first strength of the received radio signal, a second mode in which the oscillator circuit and the microcontroller both operate in response to a second strength of the received radio signal, and a third mode in which neither the oscillator circuit nor the microcontroller operate in response to a third strength of the received radio frequency signal. - View Dependent Claims (2, 3, 4, 5)
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6. A transponder device for operation in conjunction with a radio frequency signal source, comprising:
a radio frequency identification tag configured to operate in a first mode when at a first distance from the radio frequency signal source, to operate in a second mode when at a second distance that is closer to the radio frequency signal source than the first distance, and in a third mode when at a third distance that is closer to the radio frequency signal source than the second distance, the first, second, and third modes selected in response to receipt of the radio frequency signal transmitted from the radio frequency signal source, the tag configured to operate in the first mode in which an oscillator circuit operates in response to a first strength of the radio frequency signal a ROM-based circuit and a microcontroller circuit do not operate, in the second mode in which the oscillator and the ROM-based circuit operate and the microcontroller circuit does not operate in response to a second strength of the radio frequency signal, and in the third mode in which the oscillator, the ROM-based circuit, and a microcontroller circuit operate in response to a third strength of the radio frequency signal. - View Dependent Claims (7, 8)
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9. A radio frequency transponder architecture, comprising:
a micro-power oscillator configured to obtain sufficient power from a received radio frequency signal to oscillate and be detectable at a first distance, a ROM-based circuit that obtains sufficient power from the received radio frequency signal at a second distance that is shorter than a first distance to the source of the radio frequency signal to modulate an identification code preprogrammed in a memory of the ROM-based circuit, and a CMOS microcontroller configured to receive sufficient power from the received radio frequency signal at a third distance that is shorter than the second distance to the source of the radio frequency signal, the architecture structured to perform at a plurality of modes of operation comprising a first mode of read operations, a second mode of write operations, a third mode of monitoring of external inputs, and a fourth mode of generating control signals for controlling external devices and the architecture further structured so that in one of the first, second, third and fourth modes of operation the oscillator operates and the ROM-based circuit and CMOS microcontroller do not operate, and in another of the first, second, third, and fourth modes of operation the oscillator and the ROM-based circuit operate and the CMOS controller does not operate, and in a further of the first, second, third, and fourth modes the oscillator, the ROM-based circuit and the CMOS microcontroller all operate. - View Dependent Claims (10, 11, 12)
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13. A communication system, comprising:
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a transceiver configured to transmit a radio frequency signal and to receive a response signal; and a transponder configured to operate in a plurality of modes and to activate modes of operation in response to only the strength of the radio frequency signal, the transponder comprising a radio frequency identification tag configured to operate in a first mode when at a first distance from the transceiver, to operate in a second mode when at a second distance that is closer to the transceiver than the first distance, and in a third mode when at a third distance that is closer to the transceiver than the second distance, the first, second, and third modes selected in response to receipt of the radio frequency signal transmitted from the transceiver, the tag configured to operate in the first mode in which an oscillator circuit operates in response to a first strength of the received signal, in the second mode in which the oscillator and a ROM-based circuit operatesoperate in response to a second strength of the received signal, and in the third mode in which the oscillator, the ROM-based circuit and a microcontroller circuit operate in response to a third strength of the received signal. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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Specification