Abstract: A system for detecting high speed noise in active pixel sensors includes a photodiode for receiving low levels of light, a reset transistor, an amplifier transistor, a row select transistor, and a high-speed analog-to-digital converter. The reset transistor gate receives a reset signal, and the reset transistor drain receives a reset voltage. The amplifier transistor gate is connected to the photodiode and the reset transistor's source. The amplifier transistor receives a supply voltage at the drain terminal. The row select transistor gate terminal receives a row select signal. The row select drain terminal is connected to the amplifier transistor source terminal. The high-speed analog-to-digital converter includes an analog input port connected to the row select transistor source and a digital output port capable of resolving high-speed excitation events received by the photodiode.

Abstract: Embodiments of radio frequency identification (RFID) tag response modulation are described.

Abstract: A system for detecting high speed noise in active pixel sensors includes a photodiode for receiving low levels of light, a reset transistor, an amplifier transistor, a row select transistor, and a high-speed analog-to-digital converter. The reset transistor gate receives a reset signal, and the reset transistor drain receives a reset voltage. The amplifier transistor gate is connected to the photodiode and the reset transistor's source. The amplifier transistor receives a supply voltage at the drain terminal. The row select transistor gate terminal receives a row select signal. The row select drain terminal is connected to the amplifier transistor source terminal. The high-speed analog-to-digital converter includes an analog input port connected to the row select transistor source and a digital output port capable of resolving high-speed excitation events received by the photodiode.

Abstract: Disclosed is a wireless charging device for charging electronic devices placed in a docking area of the wireless charging device. The wireless charging device includes an inductive coupler, a reflected power detector, a power source and a power control system. The inductive coupler is configured to charge at least one electronic device present in the docking area. The inductive coupler takes power form the power source. The inductive coupler is also configured to communicate with the electronic device to exchange a set of information. The reflected power detector is operably coupled to the inductive coupler and identifies the set of information exchanged by the inductive coupler. The power control system is operably coupled to the reflected power detector and the power source. The power control system controls the charging of the electronic device by the power source based on the set of information identified by the reflected power detector.

Abstract: According to some embodiments, an antenna sub-assembly includes a multi-band antenna coupled to a radio frequency identification (RFID) integrated circuit (IC). The multi-band antenna is tuned to receive radio frequency (RF) signals of an RFID frequency band and RF signals of a non-RFID frequency band.

Abstract: In some embodiments of a radio frequency identification (RFID) system, multiple bits of data may be encoded at the same time based on a frequency shift key (FSK) modulation technique using multiple frequencies, by permitting any or all of the frequencies to be modulated on a carrier wave at the same time. In some embodiments a parallel but asymmetric down-conversion of the frequencies may allow both frequencies to be detected with identical filters.

Abstract: An embodiment of the present invention provides an apparatus, comprising an RF ID tag capable of reporting receiver signal strength indication, wherein the receiver signal strength may be indicated by an a RSSI byte included with an electronic product code (EPC) data packet. The EPC data packet may be in the standard SGTIN-64 EPC data format. Further, the RF ID tag capable of reporting signal strength may enable power control or beam steering.

Abstract: The antenna of a radio frequency identification (RFID) tag may be detuned by applying a conductive material in radio frequency (RF) contact with the antenna, such that the RFID tag is not operable. This material may later be removed, or the conductive effect of the material eliminated, thus re-tuning the antenna to its design specifications and restoring the RFID tag to an operable condition. In this manner, RFID tags may be manufactured in an inoperable state, to be subsequently made operable through the occurrence of an event, such as scraping off the conductive material.

Abstract: An embodiment of the present invention provides an apparatus, comprising a radio frequency identification transceiver adapted for self jammer suppression. The transceiver may further comprise a phase shifter and variable attenuator/variable amplifier adjusted to minimize the power injected into a receive chain by the self jammer. In an embodiment of the present invention the present transceiver may further comprise at least one RF peak power detector to determine the power injected into the receive chain.

Abstract: An AM-FM hybrid signal is created which may be used to communicate simultaneously with both RFID tags that receive AM signals and wireless devices that receive FM or PM signals. The AM-FM hybrid signal may be fed back into the system's receiver at the local oscillator in order to recover the RFID tag's FM response, thus enabling simultaneous reception and decoding of both RFID tag FM response and FM wireless device response.

Abstract: A system for detecting high speed noise in active pixel sensors includes a photodiode for receiving low levels of light, a reset transistor, an amplifier transistor, a row select transistor, and a high-speed analog-to-digital converter. The reset transistor gate receives a reset signal, and the reset transistor drain receives a reset voltage. The amplifier transistor gate is connected to the photodiode and the reset transistor's source. The amplifier transistor receives a supply voltage at the drain terminal. The row select transistor gate terminal receives a row select signal. The row select drain terminal is connected to the amplifier transistor source terminal. The high-speed analog-to-digital converter includes an analog input port connected to the row select transistor source and a digital output port capable of resolving high-speed excitation events received by the photodiode.

Abstract: A power amplification system includes functionality for measuring and compensating for distortion and non-linearity in a power amplifier (PA). The compensation process may be performed repeatedly (or continuously) during the operational life of the PA to adapt to changing gain characteristics of the PA.

Abstract: Disclosed are a system and a method for identifying components in an assembly. The system comprises an assembly including one or more components and a power harvesting device, and a reader. The power harvesting device provides power to the one or more components and queries component identification information from the one or more components. The one or more components provide the power harvesting device with the component identification information which is relayed to the reader by the power harvesting device. The system allows determination of the components of the assembly while precluding the need for dismantling the assembly or powering on the assembly to run diagnostic software.

Abstract: Disclosed is an RFID system. The RFID system comprises a plurality of RFID tags and an RFID reader. The RFID reader communicates with the plurality of RFID tags. The RFID reader is capable of sending a signal, which represents a time gap required in successive responses of each RFID tag of the plurality of RFID tags to the RFID reader. Each RFID tag of the plurality of RFID tags is capable of maintaining the time gap in successive responses to the RFID reader.

Abstract: Duplicate copies of data may be stored in different sectors on the same track of a disk drive. When reading the data, the data may read from the sector that passes under the read head soonest, thus decreasing data access latency. In some embodiments, the duplicate sectors may be equally spaced around the track.

Abstract: Various embodiments of the invention combine a passive RFID tag with a manually switchable battery for additional transmit range when needed. In some embodiments, connecting the battery may also modify the contents of the data transmitted from the RFID tag. This feature may be particularly useful in applications in which a device generally only needs to identify itself as being in a small area, but may occasionally need to send out an alert with greater range.

Abstract: Disclosed is a wireless charging device for charging electronic devices placed in a docking area of the wireless charging device. The wireless charging device includes an inductive coupler, a reflected power detector, a power source and a power control system. The inductive coupler is configured to charge at least one electronic device present in the docking area. The inductive coupler takes power form the power source. The inductive coupler is also configured to communicate with the electronic device to exchange a set of information. The reflected power detector is operably coupled to the inductive coupler and identifies the set of information exchanged by the inductive coupler. The power control system is operably coupled to the reflected power detector and the power source. The power control system controls the charging of the electronic device by the power source based on the set of information identified by the reflected power detector.

Abstract: Briefly, in accordance with one or more embodiments, a self jammer may be detected and suppressed from a received signal by embedding a pilot tone in the transmitted signal and then detecting the pilot tone in the received signal. Detection of the pilot tone in the received signal indicates the presence of a self jammer. A phase shifted and attenuated version of the transmitted signal may be combined with the received signal to suppress and/or cancel the self jammer signal from the received signal.

Abstract: Some embodiments of the invention may incorporate an oscillator circuit into a radio frequency identification (RFID) tag in which the oscillator circuit comprises at least one component that is sensitive to an environmental factor such as temperature or humidity. When the tag responds to an RFID reader, the tag may incorporate the sense environmental parameter into its response by transmitting an oscillating signal whose frequency indicates the value of the parameter. The RFID reader may then determine the parameter by analyzing the resulting analog portion of the waveform in terms of frequency and/or cycle and/or pulse width. In some embodiments, the environmental sensor may be incorporated into the integrated circuit containing the RFID tag circuit.

Abstract: A reconfigurable zone plate lens is disclosed. Some embodiments may include a central annular element having a first a first circumference centered about a central axis. Embodiments may also include a plurality of concentric annular elements of increasing circumference centered about the central axis and the central annular element, where each annular element is positioned around an annular element having a smaller circumference. The annular elements of some embodiments may each be adapted to be in either an active or inactive state where the active and inactive annular elements form a plurality of alternating active rings and inactive rings. Each active ring may include one or more annular elements in an active state and each inactive ring may include one or more annular elements in an inactive state. Each annular element may include one or more liquid crystal display (LCD) elements or micromirrors. Other embodiments are disclosed and claimed.