A radio frequency device utilizing an antenna having a single antenna structure resonant on multiple resonant frequency ranges. The antenna can be configured to operate within multiple frequency ranges for communication according to respective protocols associated with the respective frequency ranges.

A method includes sending, by a reader, a radio frequency (RF) signal to a wireless sensor that includes an antenna having a tail section and a head section. The tail section is for placement in an RF limited area for sensing moisture in a first location of a vehicle under test and wherein the head section is for placement in a non-RF limited area. The method further includes receiving, by the reader, an RF response to the RF signal from the wireless sensor. The first RF response includes an indication of adjustment of one or more RF characteristics of the wireless sensor, which corresponds to a variance of the one or more RF characteristics from a desired value, which, in turn, corresponds to a level of moisture at the first location. The method further includes outputting, by the reader, a message regarding the level of moisture at the first location.

An antenna assembly for a radio frequency identification (RFID) reader includes: a support member having an inner surface and an opposing outer surface; a first bifilar helical antenna element wound about a first helical axis extending from the outer surface of the support member, wherein the first helical axis is exclusive to the first helical antenna element; a first control terminal on the support member, electrically connected with the first bifilar helical antenna element; a second bifilar helical antenna element wound about a second helical axis extending from the outer surface of the support member, wherein the second helical axis is exclusive to the second helical antenna element; and a second control terminal on the support member, electrically connected with the second bifilar helical antenna element.

An electronic voting system is described that utilizes printed vote records (PVRs) in which a voter's vote selections are recorded in voter readable characters. Optical character recognition (OCR) techniques may then be utilized to scan the PVR to record the voter's selections. The OCR data is then utilized to generate the cast vote record. Thus, the electronic voting system directly interprets the voter selections from the PVR just as the voter sees the data. In this manner what you see is what you get printed vote record data is provided for a voter's viewing and that same data is used to generate the cast vote record.

The present disclosure relates generally to electronic devices, and more particularly, to electronic devices that utilize electromagnetic signals (e.g., radio frequency (RF) signals), transmitters, and receivers in various processes, such as cellular and wireless device processes in a at least partially metal enclosure. The present disclosure describes devices that may be used to wirelessly transmit and/or receive electromagnetic signals between processing components and sensing components, for example, by improving sensing device design and thus forming an integrated sensing tag that leverages passive RF technology, such as radio frequency identification (RFID) tags.

A reader device is provided having a wider readable area and a table with the reader device. The reader device includes an antenna element communicating with an RFID tag attached to an article, a reader module electrically connected to the antenna element and reading information of the RFID tag through the antenna element, and a case housing the antenna element and the reader module. Moreover, the antenna element includes a first dipole antenna having a first element axis extending in a first direction, and a second dipole antenna having a second element axis extending in a second direction crossing the first direction.

A radio frequency identification (RFID) tag includes an antenna, a power circuit, a tuning circuit, a receiver, and a backscatter transmitter. The power circuit is operably coupled to convert a radio frequency (RF) signal received via the antenna from an RFID reader into one or more power supply voltages. The tuning circuit is operably coupled to the antenna and to adjust an RF characteristic of the antenna and/or the tuning circuit based on a difference between a resonant frequency of the RFID tag and a carrier frequency of the RF signal. The receiver is operably coupled to receive a command signal from the RFID reader. The backscatter transmitter is operably coupled to transmit a response signal to the RFID reader via the antenna.

In an embodiment, the present invention is a barcode and RFID tag reader that includes a head portion housing an imaging assembly, the imaging assembly configured to capture images of an environment appearing with a FOV extending through a window; a base portion housing an RFID tag reader assembly; and an intermediate portion extending between the head portion and the base portion. Preferably, the RFID tag reader assembly includes a chassis having a face directed towards the FOV and an antenna assembly at least partially contoured around the face of the chassis where the antenna assembly includes: a monopole flexible antenna having a first monopole antenna element having a first half and a second half, the first half and the second half being substantially symmetrical about a line of symmetry; and a dipole flexible antenna extending at least partially over at least a portion of the first monopole antenna element.

A system for wireless identification of samples in a tank holding cryogenic liquid in cryogenic liquid storage comprises wireless tags adapted to be connected to a container of the sample in the cryogenic liquid. The wireless tags have an identification associated to the sample in the container. A wireless reader is adapted to be located outside of the tank and operable to obtain and output the identification of the at least one wireless tag via wireless communication and through the cryogenic liquid. A method of wireless identification of samples in cryogenic liquid storage is also provided.

An antenna (10) for an RFID reader, the antenna (10) comprising at least two linearly polarized individual antennas (24a-b) and a feed circuit (26) which is connected to the individual antennas (24a-b), wherein the individual antennas (24a-b) are arranged relative to one another with a tilt of an internal angle and together form a circularly polarized antenna, and wherein the antenna (10) has a free space (30) in a region of the internal angle.