RFID device wtih control logic, and method
First Claim
1. A radio frequency identification (RFID) tag, label or inlay comprising:
- a chip;
at least a first antenna and a second antenna coupled to the chip for receiving incoming signals and sending outgoing signals;
a physical or virtual antenna control switch coupled to the chip configured to select either the first antenna or the second antenna, wherein the chip includes control logic that is part of a processor of the chip that is operatively coupled to an adjustable modulator configured to change circularity of the outgoing signals such that the outgoing signals are left or right hand circularly polarized;
the control logic including logic configured to adjust the adjustable modulator to set a data rate of the outgoing signals, such that the outgoing signals are at least in part based on a data rate of the incoming signals and when the incoming signals consist of a high data rate and are detected, the outgoing signals are sent at a higher data rate and wherein the control logic is configured to perform the operations of1) determining whether to send the outgoing signals,2) controlling characteristics of the outgoing signals,3) using a decision tree, decision table, decision matrix, flow chart, or algorithm for determining control of the outgoing signals,4) controlling the physical or virtual antenna control switch to select either the first antenna or the second antenna for sending the outgoing signals, andwherein each of the operations is based at least in part on,1) a non-informational characteristic of the incoming signals received by the RFID tag, label or inlay, and2) environment information received by an environment sensor of the RFID tag, label or inlay, and wherein one of the non-informational characteristic of the incoming signals or the environmental information received by the environment sensor selectively couples either the first antenna or second antenna to the chip.
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Accused Products
Abstract
A radio frequency identification (RFID) device has controllable features that allow for modification of its interaction with external devices, such as RFID readers. The RFID device may have multiple antennas, coupled to multiple contacts of a chip of the device. The chip may include a real or virtual switch for selectively coupling the chip to either of the antennas. The switch may be activated by an external signal sent to the RFID device. The RFID device also may be controlled by adjusting an adjustable modulator within the RFID device. The modulator may adjust outgoing signals from the RFID device to an appropriate level of signal strength, or to have other suitable characteristics. By control of the antenna couplings and/or the modulator settings of the RFID device, adjustments in performance of the RFID device may be made for suitable operation in a variety of situations and environments.
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Citations
7 Claims
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1. A radio frequency identification (RFID) tag, label or inlay comprising:
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a chip; at least a first antenna and a second antenna coupled to the chip for receiving incoming signals and sending outgoing signals; a physical or virtual antenna control switch coupled to the chip configured to select either the first antenna or the second antenna, wherein the chip includes control logic that is part of a processor of the chip that is operatively coupled to an adjustable modulator configured to change circularity of the outgoing signals such that the outgoing signals are left or right hand circularly polarized; the control logic including logic configured to adjust the adjustable modulator to set a data rate of the outgoing signals, such that the outgoing signals are at least in part based on a data rate of the incoming signals and when the incoming signals consist of a high data rate and are detected, the outgoing signals are sent at a higher data rate and wherein the control logic is configured to perform the operations of 1) determining whether to send the outgoing signals, 2) controlling characteristics of the outgoing signals, 3) using a decision tree, decision table, decision matrix, flow chart, or algorithm for determining control of the outgoing signals, 4) controlling the physical or virtual antenna control switch to select either the first antenna or the second antenna for sending the outgoing signals, and wherein each of the operations is based at least in part on, 1) a non-informational characteristic of the incoming signals received by the RFID tag, label or inlay, and 2) environment information received by an environment sensor of the RFID tag, label or inlay, and wherein one of the non-informational characteristic of the incoming signals or the environmental information received by the environment sensor selectively couples either the first antenna or second antenna to the chip. - View Dependent Claims (2, 3, 4, 5)
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6. A method of controlling a radio frequency identification (RFID) tag, label or inlay, the method comprising:
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receiving an incoming signal at the RFID tag, label or inlay; controlling through a processor the operations of 1) determining whether to send an outgoing signal, 2) controlling non-informational characteristics of the outgoing signal which includes controlling a signal strength of the outgoing signal, and 3) controlling a physical or virtual antenna control switch to select an antenna from at least a first antenna and a second antenna such that the physical or virtual antenna control switch is operatively coupled to the processor, and wherein each of the operations is based at least in part on, 1) a non-informational characteristic of the incoming signal, and 2) environment information received by an environment sensor, wherein the environment sensor which includes one or more of a temperature sensor, a humidity sensor, a pressure sensor, an electric field sensor, a light sensor, a magnetic field sensor, and a chemical sensor, is a part of a chip of the RFID tag, label or inlay and selecting by the physical or virtual antenna control switch either the first antenna or the second antenna for transmitting the outgoing signal; and wherein controlling the non-informational characteristics of the outgoing signal includes using control logic of the processor of the RFID tag, label or inlay to control an adjustable modulator to change circularity of the outing signal such that the outgoing signal is left or right hand circularly polarized; and wherein receiving the incoming signal at the RFID tag, label or inlay comprises detecting a low data rate of the incoming signal, and producing, at the adjustable modulator, the outgoing signal having a data rate and a signal strength based on a correlation between the detected low data rate and a lookup table. - View Dependent Claims (7)
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Specification