Abstract: Apparatus and methods are described which are useful for determining a location characteristic between an RFID tag and an RFID tag reader or a second RFID tag. In various embodiments, signals backscattered from a singulated tag over a range of frequencies are evaluated for in-phase I and in-quadrature Q signal components. The I-Q data is processed to determine phase delay angles associated with each signal frequency. The phase delay data can be processed by a sum of squared errors method or Fourier transform method to determine a distance to the singulated tag. The methods can also be used to determine any of a location, a radial velocity, a directional velocity of the singulated tag, and proximity of the singulated tag to a second tag.

Abstract: A group proving method includes the following steps. First, a query command is broadcasted to radio frequency identification (RFID) tags, each of which responds the query command with tag identification data. Next, a first round parameter is generated and broadcasted according to the tag identification data, and each RFID tag responds the first round parameter with a first response parameter. Then, a second round parameter is generated and broadcasted according to the first response parameter, and each RFID tag determines whether the second round parameter is received in a predetermined period after the first round parameter was received and whether the first and second round parameters correspond to each other. If so, each RFID tag updates its tag key according to a random number parameter and outputs a second response parameter. Thereafter, group proving data are generated according to the above-mentioned data.

Abstract: A method of authentication of a terminal generating a magnetic field, by a transponder including an oscillating circuit from which a D.C. voltage is generated, wherein the transponder: receives first data relative to the current in an oscillating circuit of the terminal, measured by the terminal for a first value of the resistive load of the transponder; and exploits these first data and second data relative to the level of said D.C. voltage, respectively measured for the first resistive load value and for a second resistive load value.

Abstract: RFID reader systems, readers, components, software and methods for causing a custom RFID tag to change how many remaining commands they will comply with. In a number of embodiments, this is achieved by causing a custom limiting command to be transmitted to the tag.

Abstract: A method and device of power management for a networked radio frequency identification (“RFID”) system are disclosed. The described power management methods reduce the power consumption of battery-operated RFID readers and RFID tags. These power conservation methods increase the RFID system's hours of operation and decrease the cost by allowing the RFID readers and tags to function for a longer period of time before requiring charging or replacement of their batteries.

Abstract: A system, apparatus, and method are provided for using a PCB component as an antenna to allow for RFID communication in the UHF band. The present invention enables supply chain management of a PCB and products containing the PCB by enabling tracking of a PCB at the assembly level such that at each production stage of the board production it is known exactly where the product is and what is its present state of test. One embodiment uses an existing ground plane of a PCB, splitting the ground plane of all the layers of the PCB, allowing for a dipole structure that provides an adequate received energy level to power the circuit to the “on” state thereby allowing RFID/Electronic Product Code transactions. In alternative embodiments, existing or added traces are used in place of the split ground plane as an antenna for the RFID IC.

Abstract: A noncontact communication apparatus is disclosed which includes: an antenna resonance circuit configured to have a coil for communicating with an opposite party through electromagnetic coupling; a changing block configured to change a Q-factor of the antenna resonance circuit; and a control block configured to control the antenna resonance circuit to transmit and receive data to and from the opposite party at one of a plurality of communication speeds prepared beforehand, the control block further controlling the changing block to reduce the Q-factor the higher the communication speed in use.

Abstract: Methods and systems of attaching a radio transceiver to an antenna. At least some of the illustrative embodiments are systems comprising an antenna and an integrated circuit configured to operate as a radio transceiver. The antenna comprises a ground plane having a first edge surface, and an active element having a second edge surface. The ground plane and the active element are retained together such that the first and second edge surfaces are substantially coplanar and form an antenna edge. The integrated circuit is configured to operate as a radio transceiver, and the integrated circuit is mechanically coupled to the edge of the antenna and electrically coupled to the active element.

Abstract: One or more secondary data channels are added to existing RFID protocols within the existing bandwidth, data clock rate and message frame times of the protocols. An RFID system is described having at least one reader and at least one tag includes communication between the reader and the tag using a radio frequency carrier signal modulated by a modulation signal to provide a modulated carrier signal conveying digital data in either direction. The modulation signal includes a first encoded modulation signal perturbed by encoded perturbations, the first encoded modulation signal being produced from a first data string. The encoded perturbations are produced from a second data string. The modulation signal modulates the radio frequency signals to transfer data representative of the first and second data strings simultaneously between the reader and the tag. The modulation signal modulates the amplitude, phase, frequency or any combination of the radio frequency carrier signals.

Abstract: A wireless sensor reader is provided to interface with a wireless sensor. The wireless sensor reader transmits an excitation pulse to cause the wireless sensor to generate a ring signal. The wireless sensor reader receives and amplifies the ring signal and sends the signal to a phase-locked loop. A voltage-controlled oscillator in the phase-locked loop locks onto the ring signal frequency and generates a count signal at a frequency related to the ring signal frequency. The voltage-controlled oscillator is placed into a hold mode where the control voltage is maintained constant to allow the count signal frequency to be determined.

Abstract: Several embodiments provide methods and apparatus to improve communications between an RFID reader and one or more RFID tags. In one implementation, an apparatus comprises a first antenna configured to communicate with a radio frequency identification (RFID) reader; a second antenna separate from said first antenna, and configured to communicate with at least one RFID tag; and structure electrically coupling said first and second antennas.

Abstract: Disclosed is a system and method for verifying a chip having a memory. Remanufacturers of imaging devices, such as inkjet printers or electrostatic printers, often have to use a replacement chip in order to reuse an imaging cartridge. It is desirable to have a system and method for determining if the replacement chip is suitable for use with a specific imaging cartridge. Also, it may be desirable to confirm that the chip was manufactured by a specific manufacturer. The disclosed system and method allow the remanufacturer a reliable and efficient way to verify chips.

Abstract: A method of identifying a plurality of transponders, the method comprising receiving at an interrogator one or more data transmission blocks from each transponder, wherein the first data block contains a uniquely detectable transponder identity and zero or more further data blocks defining a set of data blocks making up a transponder transmission. The first data transmission block also contains in transmission block number; one or more further data transmission blocks containing additional block data and a respective transmission block number; the block number being changed, by decrement or increment, automatically as each data block is transmitted.

Abstract: An antenna switching arrangement with a quadrature arrangement of transmission lines through which a desired signal path may be configured via switches selectively grounding junctions of the switching arrangement. The desired path routing a signal from an input port to one or both of first and second output ports to generate a signal with vertical linear polarization, horizontal linear polarization or circular polarization. The selected polarization may be changed as desired and/or multiple antenna switching arrangements applied to enable simultaneous signals with different polarizations.

Abstract: The present invention relates to a URL providing apparatus and a method thereof, and a mobile station that accesses the Internet by using the provided URL, and an Internet access method thereof. The mobile station attaches an RF-ID tag that stores an RF-ID tag value corresponding to identification information of the mobile station thereto, and thus when a user brings the mobile station into an interrogation range of an RF-ID reader included in the URL providing apparatus, the URL providing apparatus receives the corresponding RF-ID tag value from the RF-ID reader. When the URL providing apparatus acquires an IP address of the mobile station by using the received RF-ID tag value and provides a URL to the mobile station by using the acquired IP address, the mobile station automatically accesses the Internet by using the URL. Such an Internet access method can minimize additional cost of the mobile station and simplify an Internet access process to a specific URL.

Abstract: Methods, systems, and apparatus, including computer program products, for tracking media history using a mobile device. In some implementations, a method includes receiving a notification indicating that a mobile device is in communication range of a first player device. First media context information specifying media content being played by the first device and capabilities for the first device is received. The capabilities indicate types of media content that can be played by the first device. The first media context information is associated with the first player device. A second notification indicating that the mobile device is in communication range of a second player device is received. Second media context information is received. The second context information is associated with the second device. A history of media content is generated from the first media context information and the second media context information.

Abstract: Embodiments disclosed in the detailed description include cables and connector assemblies employing a furcation tube(s) for radio-frequency identification (RFID)-equipped connectors, and related systems and methods. In one embodiment, a connector assembly is provided that comprises a cable comprising a cable end, an interior area, at least one communication line, and at least one furcation tube disposed in the interior area. The connector assembly also comprises a connector operably connected to the cable end. At least one antenna wire is configured to be electrically connected to at least one RFID tag to serve as at least a portion of an RFID antenna for at least one RFID tag. At least a portion of the at least one antenna wire is disposed inside the furcation tube in the cable. In this manner, the antenna wire is secured inside the rugged packaging of the cable to protect the antenna wire.

Abstract: The present invention is directed to reducing leakage of a transmitting signal to a receiving unit in a wireless communication system with a transmitting unit and the receiving unit sharing an antenna.

Abstract: A RFID network system which allows the use of simple and low cost, reduced functionality RFID readers/writers thanks to the use of a plurality of concentrators which allow to distribute the processing work related to the reading, writing and verification of each reader, thus optimizing the use of each system component and achieving high processing velocities.

Abstract: The present invention provides a method for emulating multiple RFID tags for an RFID tag interrogation device, comprising the steps of storing one or more data sets, wherein each data set defines operational properties of an RFID tag, maintaining a list of said one or more data sets, indicating one data set in said list as active data set, receiving an interrogation from said RFID tag interrogation device, emulating, responsive to said interrogation, the operation of the RFID tag according to the active data set; and indicating another data set in said list as active data set.

Abstract: A method, apparatus, and computer program product are provided for monitoring a transfer of fluid between a syringe and a fluid reservoir. A syringe may include a chamber for holding fluid transferred between the syringe and a fluid reservoir, a distal end comprising a point of attachment for a needle enabling transfer of fluid between the syringe and the fluid reservoir, and a first signaling tag carried by the syringe. The first signaling tag may be positioned to enable the first signaling tag to come within a sufficient proximity of a second signaling tag carried by the fluid reservoir to trigger a state of a signal emitted by at least one of the first signaling tag or second signaling tag to change when the needle is inserted through a membrane of the fluid reservoir.

Abstract: By pushing the registration switch of a main controller, a radio signal for requesting the transmission of a terminal-device ID number is transmitted (SP1, SP2). A wireless sensor sends back the terminal-device ID number (SP11, SP12), and the main controller stores the received terminal-device ID number in its storage unit and transmits a main-controller device ID number (SP4, SP5). The wireless sensor stores the main-controller device ID number in its storage unit. From then on, communications between devices whose device ID numbers have been registered are permitted.

Abstract: In a circuit for a data carrier, which data carrier comprise a sensor that is designed for providing a sensor signal that represents an environment parameter and a communication element that is designed for the contact-less communication with an interrogator station, first connection elements for connecting the circuit to the communication element and second connection elements for establishing an electronic connection of the circuit to the sensor are provided, wherein the second connection elements are realized by the first connection elements and wherein the circuit comprises a sensor signal processing stage designed for receiving said sensor signal via the first connection element and for processing said received sensor signal.

Abstract: An embodiment of the present invention improves the efficiency of radio frequency identification (RFID) systems and helps to extend the effective read range for certain configurations of closely spaced RFID tags. Specifically, an embodiment helps to minimize energy losses that result when there is excess energy from the excitation source. This excess energy has the potential to damage the circuitry in RFID tags. A shunt regulator is often used to protect the RFID circuitry by clamping the voltage, but has the undesirable effect of converting this excess excitation energy into heat. Various embodiments are directed toward using only as much of the excitation energy as necessary to power the RFID circuitry.

Abstract: An improved system and method for monitoring objects, people, animals, or places uses a passive Modulating Reflector (MR) tag where a characteristic of an antenna is modified according to a time-varying pattern by a modulating network thereby causing the reflective characteristics of the antenna to vary in accordance with the time-varying pattern. When an interrogator transmits an RF waveform that impinges on the antenna, the return signal reflecting off the antenna is modulated in accordance with the time-varying pattern allowing a remote receiver to demodulate information from the modulated return signal. The antenna is embedded in a dielectric material. The MR tag can be used with a wide variety of tag-interrogator configurations employing monostatic and/or bistatic radar techniques to allow monitoring, locating, and/or tracking of objects, people, animals, or place with which MR tags are associated.

Abstract: Systems and methods for interactively interfacing handheld devices and RFID media are described. A method for interactively interfacing HHDs and RFID media. The method includes starting an application on a HHD for interfacing with RFID media, the HHD including a RFID reader, receiving user input relating to the storing of commands or messages of RFID media, creating one or more commands or messages based on the received user input, and storing the one or more commands or messages on a RFID media using the RFID reader.

Abstract: A method for evaluating the current coupling factor between an electromagnetic transponder and a terminal, wherein a ratio between data representative of a voltage across an oscillating circuit of the transponder and obtained for two pairs of inductive and capacitive values of this oscillating circuit is compared with one or several thresholds, the two pairs of values preserving a tuning of the oscillating circuit to a same frequency.

Abstract: There is provided a system for secure profile setting that includes at least one shared device and an RFID reader module embedded in the at least one shared device. The system further includes a database that is in communication with the at least one shared device. In the system, an RFID transponder module associated with a user transmits a signal that enables the at least one shared device to identify the user. The RFID transponder module can include a fingerprint scanner module, which can be used to acquire a user's fingerprint data to authenticate the user. Thus, after identifying the user, the at least one shared device retrieves a profile corresponding to the user from the database and sets the profile.

Abstract: RFID reader systems, readers, components, software and methods cause RFID tags to backscatter a combination made from at least portions of a first code and a second code, without transmitting any commands in the interim. The first and/or second codes may include a tag response to a reader challenge. In a number of embodiments, a separate command does not have to be sent for reading the second code along with the first code, thereby saving time in inventorying the tags. Plus, the combination can enable reading tag codes during tag manufacturing that are not otherwise readily available to read in the field. In some embodiments, the combination may further include one or more error-checking codes.

Abstract: In embodiments of the present invention improved capabilities are described for a passive radio frequency identification (RFID) tag, where the passive RFID tag contains an RF network node and communication facility. The RF network node includes an RF and analog block for receiving and transmitting an RFID reader signal, a data processing and controller block for digital information processing, a memory store, and a power management block for managing power requirements of the RF network node. The communication facility communicates at least in part with an external display facility. The distribution of power to the RF network node functional blocks is controlled using the power management block to select between an extended operational time and an increase in available functionality.

Abstract: Methods of determining patch cord connectivity information include receiving, at each of a plurality of RFID readers, a signal from an RFID tag that is associated with a first patch cord and then, identifying the one of a plurality of connector ports that the first patch cord is connected to based at least in part on respective strengths of the signals received at each of the plurality of RFID readers. RFID triangulation systems and methods of calibrating such systems are also provided.

Abstract: The present disclosure relates generally to wireless detection systems. In one illustrative embodiment, a wireless detection system includes a plurality of surface acoustic wave (SAW) sensors, and an electronic reader for interrogating the plurality of SAW sensors. In some instances, each of the surface acoustic wave based sensors includes an integrated sensor coil. The electronic reader may include a plurality of reader coils and a controller. The controller may be configured to interrogate the plurality of surface acoustic wave based sensors using a time division interrogation. In some cases, each of the plurality of reader coils is inductively coupled to only one of the integrated coils of the SAW sensors at any given time.

Abstract: An antenna assembly is operative for receiving interrogating radiation at a variable frequency tag and generating a corresponding received signal, and for receiving a signature signal and radiating corresponding response radiation. A logic unit is operative for receiving the received signal and outputting the signature signal in response, the signature signal including a signature code for use in identifying the tag. A voltage controlled oscillator is operative for controlling a rate at which the signature code is output; and a power supply is operative for providing an electrical potential difference for energizing the tag. The voltage controlled oscillator is operable to output the signature code at a rate which is governed by the magnitude of the received signal.

Abstract: Disclosed is a tracking and Geofencing system. Zones are classified into three types: safe, hazardous and travel, with the travel zone being defined in the preferred embodiment as any territory not in a safe or hazardous zone. The system monitors an asset by determining whether the asset is within a safe zone, logging data as to when the asset arrives in or leaves the safe zone and at what time it did so, while in transit from the safe zone to a hazardous zone logging the route of travel which may vary from day to day and notifying the owner if the asset goes motionless while in route for a user defined period of time, logging data as to when the asset arrives and leaves a hazardous zone such as time and duration and alerting the owner if the asset has exceeded a predetermined time within a hazardous zone.

Abstract: The invention relates to a method for ranging a radio frequency tag, comprising measuring the modulated backscattering response of the tag at a plurality of frequencies using reader and determining the dispersive properties of the tag from the amplitude of the measured backscattering response. Further, the method comprises determining a position parameter of the tag from the measured modulated backscattering response and the determined dispersive properties of the tag.

Abstract: An electric vehicle can be configured to execute an association procedure with one or more charging stations in a charging facility to securely connect to and receive electric power from one of the charging stations. The electric vehicle can broadcast one or more service matching messages to the charging stations and, in response, can receive attenuation information from one or more of the charging stations. The electric vehicle can analyze the attenuation information received from the charging stations to identify with which charging station the electric vehicle should associate (e.g., to determine which charging station should provide electric power to the electric vehicle). The electric vehicle can then associate with (and receive electric power from) the identified charging station.

Abstract: RFID apparatus includes transmission means for transmitting an RF signal; reception means for receiving a modulated RF signal; and demodulation means for demodulating a received modulated signal. The apparatus comprises generating means for generating a RF signal dependent on an incoming RF signal, the incoming RF signal being generated by different apparatus, and the apparatus is arranged to transmit the generated RF signal such that the generated RF signal interferes with the incoming RF signal. The RFID apparatus has both the means to respond to an RF reader device, in tag emulation mode, and means to function as an RF reader device, in reader mode.

Abstract: A resonate power generator is provided. The resonate power generator may include a waveform and sequence memory to record a predetermined waveform and a predetermined sequence, a delta-sigma modulator to delta-sigma modulate an output signal of the waveform and sequence memory, and a waveform recovery unit to receive, as an input, an output radio frequency (RF) signal of the delta-sigma modulator, and to convert the input into a waveform in a form of an impulse.

Abstract: The invention relates to method for producing an RFID label. According to said method, a coupling antenna (2) arranged on a web-shaped support material (1) comprising an RFID chip (4) arranged thereon is glued onto a secondary antenna (10). The aim of the invention is to provide an RFID label that can be produced from few recyclable materials with little complication and in an environmentally friendly manner. The invention is characterized in that first the coupling antenna (2) comprising the chip (4) is glued onto a self-adhesive secondary antenna (10) in one step, the secondary antenna having a backing adhesive layer (12).

Abstract: An electronic device and a method of operating the device. The device receives a first signal having a first frequency and a predetermined signal strength and retransmits a signal after a latency period and during a time period. The device comprises an oscillation circuit operating in a sub-threshold area in a meta-stable, first mode of operation. When the first signal is received, the oscillation circuit is trigged and passes to an active mode in a second mode of operation, wherein the circuit oscillates. Finally, the device is reset to the first mode of operation. The device may have an identity, which is used for the purpose of the system, which may be an RFID system.

Abstract: A method and system for an electronic price label system comprising at least a base station and a plurality of electronic labels for transferring information between the base station and electronic labels. The method comprises transmitting a first message from base station 6 to a plurality of electronic labels 5a, 5b, the first message comprising at least identification information of one electronic label 5a, 5b, receiving the first message at the electronic label 5a, 5b, recognizing the identification information in the first transmitted message by the electronic label 5a, 5b, transmitting a second message from the base station 6 to the electronic label 5a, 5b, receiving the second message and sending an acknowledgement message to the second message from electronic label 5a, 5b with a modulation frequency from a certain frequency range, and searching the acknowledgement message from a predefined frequency range at the base station 6.

Abstract: A radio frequency identification (RFID) reader may extract a reception from the extracted reception power, and analyze the power pattern. Next, the RFID reader may determine whether the RFID tag is identified based on an power from a tag signal transmitted from an RFID tag, generate a power pattern analysis result of the power pattern.

Abstract: A vehicle comprising at least one mounted assembly, comprising a wheel and a tire, and an element consisting partially of polymer compounds, said mounted assembly comprising at least one wireless system for measuring a physical parameter of the tire by surface acoustic wave technology or volume acoustic wave technology, at least one area of said element being at a constant distance from the mounted assembly during use of the vehicle. An interrogation antenna is associated with said area of said element.

Abstract: RFID tags and chips for RFID tags are capable of complying with only a limited number of remaining commands, and methods. In a number of embodiments, a counter is adjusted in association with receiving a command and complying with it. The tag complies until the counter reaches a limit, and then it can stop complying. Non-compliance can be by the tag becoming quiet, or performing other activities, or performing nothing at all, or performing only selected activities, and so on. In some embodiments non-compliance is permanent, while in others it is temporary and/or restorable.

Abstract: Techniques for protecting communication between a card reader and a contactless smartcard are disclosed. In one embodiment, a protocol transmitter includes a transmit circuit and a processor. The transmit circuit is configured to generate a blocking signal having a frequency used by the card reader to communicate with the contactless smartcard. The processor is coupled to the transmit circuit and configured to modulate the blocking signal according to a communication protocol of the contactless smartcard. A first antenna of the protocol transmitter is disposed a predetermined distance from the card reader and is coupled to the transmit circuit to radiate the blocking signal. Optionally, the processor modulates the blocking signal so as to simulate a data exchange between the card reader and the contactless smartcard.

Abstract: An adaptive inductive ballast is provided with the capability to communicate with a remote device powered by the ballast. To improve the operation of the ballast, the ballast changes its operating characteristics based upon information received from the remote device. Further, the ballast may provide a path for the remote device to communicate with device other than the adaptive inductive ballast.

Abstract: A system includes an ordering module, an asset tagging module, a database, and a manufacturer server. The ordering module is configured to receive an order for a component from a web browser. The asset tagging module is configured to receive information for an asset tag from the web browser, and to receive a selection of a location on the component to place the asset tag. The database is configured to store the order for the component, the information for the asset tag, and the location of the asset tag on the component. The manufacturer server is configured to retrieve the order for the component, the information for the asset tag, and the location of the asset tag on the component, and to direct printing of the information on the asset tag and placement of the asset tag at the location on the component prior to placing the component in packaging for the component.

Abstract: An adaptive inductive ballast is provided with the capability to communicate with a remote device powered by the ballast. To improve the operation of the ballast, the ballast changes its operating characteristics based upon information received from the remote device. Further, the ballast may provide a path for the remote device to communicate with device other than the adaptive inductive ballast.

Abstract: The present disclosure provides a power rectifier for a Radio Frequency Identification tag circuit. The rectifier is constructed from a pair of complementary MOS transistors. Gates of the transistors have predetermined voltages applied to them. The applied voltages bias the transistors to near their active operating region. During the same time additional control signals are applied to the gates of the transistors, the control signals are synchronous, but out of phase, with each other.

Abstract: An adaptive inductive ballast is provided with the capability to communicate with a remote device powered by the ballast. To improve the operation of the ballast, the ballast changes its operating characteristics based upon information received from the remote device. Further, the ballast may provide a path for the remote device to communicate with device other than the adaptive inductive ballast.