A portable table number device, comprising a housing having a bottom side with an outer edge arranged to rest on a table surface, said housing comprising a power source, an RFID reader arranged to detect an RFID table ID tag on or under said table surface, computer memory means comprising a table number device ID, wireless communication means arranged to wirelessly communicate a detected RFID tag table ID by said RFID reader together with said table number device ID to an external table number receiving device, a surface proximity sensor, such as a light sensor or micro-switch arranged in a recessed portion of said housing within said outer edge, said surface proximity sensor having a first state wherein no proximate surface is detected and a second state wherein a proximate surface is detected, said second state occurring if said bottom side of said housing is placed on said table surface, and power management means arranged to keep said RFID reading device in a sleep mode wherein no or relatively little power is used until the state of said surface proximity sensor changes from said first state to said second state, to power up said RFID reader temporarily for a period of time if the state of said proximity sensor changes from said first state to said second state, said period of time being long enough to enable said RFID reader to identify an RFID tag and transmit it to said external table number receiving device, and to put said RFID reader in said sleep mode after said period of time lapses.

A tandem position sensing system of a vehicle includes a plurality of radio frequency identification (RFID) tags coupled to a trailer or a chassis of the vehicle and arranged along a first direction; and an RFID reader coupled to a sliding tandem of the vehicle that is moveable relative to the trailer or the chassis, the RFID reader being configured to identify a unique identifier of one the plurality of RFID tags that is proximate to the RFID reader, the unique identifier corresponding to a position of the sliding tandem relative to the trailer or the chassis.

A payment card (e.g., credit and/or debit card) or other device (e.g., mobile telephone) is provided with a magnetic emulator operable to communicate data to a magnetic stripe read-head. Data may include the type of reward that a user would like to earn as a result of making a purchase or the type of reward that a user would like to utilize to at least partially pay for a purchase.

A payment card (e.g., credit and/or debit card) or other card or device (e.g., mobile telephone) is provided with a magnetic emulator operable to communicate data to a magnetic stripe read-head. User interfaces are provided in a number of different configurations in order to achieve a number of different functionalities.

A payment card (e.g., credit and/or debit card) is provided with a magnetic emulator operable to act as a magnetic stripe read-head detector and a data transmitter. A multiple layer flexible PCB may be fabricated to include multiple magnetic emulators. An emulator may include a coil that includes magnetic, ferromagnetic, or ferromagnetic, material in the coil's interior. Coils may be associated with zones. As a read-head is detected to move from zone-to-zone, coils may be activated to transmit information in those zones.

A high speed tabletop and industrial printer is disclosed with integrated high speed RFID encoding and verification at the same time. The industrial printer simultaneously prints on and electronically encodes/verifies RFID labels, tags, and/or stickers attached to a continuous web. The industrial printer comprises a lighted sensor array for indexing the printing to the RFID tags; and a cutter powered from the industrial printer for cutting the web that the RFID tags are disposed on. The industrial printer comprises two RFID reader/writers that are individually controlled. Specifically, one of the RFID reader/writers comprises the ability to electronically encode the RFID tags while the web is moving; and the second RFID reader/writer uses an additional RFID module and antenna on the printer for verifying the data encoded to the RFID tags. Further, the printer utilizes adaptive RFID power settings to prevent misreads and other errors when encoding tags.

A contactless communication circuit (card) communicates with a proximity coupling device (reader). The card hosts at least two applications. The card initializes an identifier of a communication protocol to a first value. In response to a failure of a transaction with the reader, the card increments a counter. When the counter reaches a threshold, the card changes the identifier to a second value.

A contactless communication circuit (card) communicates with a proximity coupling device (reader). The card hosts at least two applications. The card detects initialization of a first anticollision process by the reader and transmits two communication protocol identifiers in response to the detection of the first anticollision process. The communication protocol identifiers are associated with respective applications supported by the card. Transmission of the two communication protocol identifiers triggers detection of a collision by the reader.

Systems and methods to selectively attach and control antennas via diodes. In one embodiment, a system includes: a reader having a plurality of reader antennas of different polarizations to transmit radio frequency signals; and at least one radio frequency device. The radio frequency device includes: a plurality of tag antennas of different polarizations; a plurality of diodes coupled to the plurality of tag antennas respectively; a receiver coupled to the plurality of diodes to receive the radio frequency signals from the tag antennas when the diodes are forward biased; and a set of one or more current controllers coupled to the plurality of diodes. In a receiving mode the controllers selectively forward bias the diodes to receive the signals from the reader. In a transmitting mode the controllers selectively change the state of the tag antennas to transmit data via backscattering the radio frequency signals.

A card is provided, such as a credit card or security card, that may transmit information to a magnetic stripe reader via a magnetic emulator. The emulator may transmit the information in order to reduce the amount of circuitry needed to emulate a particular block of information. Additionally, for example, one or more buttons may be included on the card. Buttons may be includes, for example, to provide a control interface to navigate through various options of the card. Additionally, coding schemes may be selected via buttons. Furthermore, a card may be locked until a private number is entered into a card or a number may only be generated (e.g., displayed and/or emulated) once a particular private number is entered into a card.