Abstract: A method is described for transmitting a payload between a mobile device and a plurality of anchor devices via a ranging-capable physical layer, in particular an ultra-wide band (UWB), communication.

Abstract: A digital conversion system including a sigma-delta converter, a signal generator providing a substantially symmetrical injection signal that is injected into the sigma-delta converter conversion path, bandpass filters for filtering the injection signal and the output of the sigma-delta converter, a correlator that correlates the filtered signals for providing an error signal, and a loop controller that uses the error signal to adjust a resonant frequency of the sigma-delta converter to output a target notch frequency. The loop controller may adjust a resonant frequency of a loop filter of the sigma-delta converter, in which the bandpass filters may each be centered at the target notch frequency at the output of the sigma-delta converter. The correlator may include a complex conjugate block, a multiplier and a mean calculator. The loop controller may include a converter and an amplifier and an integrator or a least-mean square block.

Abstract: A system-on-a-chip (SoC) is designed to operate within optimal voltage and frequency ranges. If an SoC is provided power outside of the optimal voltage range, the SoC can be placed in a high-stress state, exposing the chip to a security attack. Embodiments of the present systems and method limit the minimum and maximum voltage supplied to an SoC from a power management integrated circuit (PMIC). Embodiments can also track a number of requests to provide power outside of the optimal range and can signal a warning of repeated attempts to take an SoC outside of the SoC's optimal range, which may be indicative of a malicious attack on the system.

Abstract: An apparatus for a local area network includes a management communications bus, and at one of a plurality of logic nodes, logic circuitry. The management communications bus is for communication among the plurality of logic nodes, wherein respective node addresses for the plurality of logic nodes are conveyed using the management communications bus. The logic circuitry communicates information in a data/address field of the communications protocol with another of the plurality of logic nodes with reference to a subset of the predetermined set of patterned data bits in the data/address field to synchronize the transactions.

Abstract: This specification discloses devices and methods for a security concept that includes an immobile hardware token (e.g., a “wall token” that is fixed within a wall) which ensures that the more sensitive actions of electronic banking (e.g., money transfers of large sums to foreign bank accounts) can only be done from the account owner's home, but not from a remote place. However, other less sensitive (and lower security risk) actions can still be done from anywhere else. In some embodiments, the hardware token includes sensors to ensure that the token is not moved or tampered with, interfaces to provide distance bounding, and a crypto-processor to provide secure authentication. The distance bounding can be used to determine if the authentication device is in close proximity to the hardware token, which can in turn ensure that the authentication device is within the account owner's home.

Abstract: Various embodiments relate to a method and system for securely comparing a first and second polynomial, including: selecting a first subset of coefficients of the first polynomial and a second subset of corresponding coefficients of the second polynomial, wherein the coefficients of the first polynomial are split into shares and the first and second polynomials have coefficients; subtracting the second subset of coefficients from one of the shares of the first subset of coefficients; reducing the number of elements in the first subset of coefficients to elements by combining groups of / elements together; generating a random number for each of the elements of the reduced subset of coefficients; summing the product of each of the elements of the reduced subset of coefficients with their respective random numbers; summing the shares of the sum of the products; and generating an output indicating that the first polynomial does not equal the second polynomial when the sum does not equal zero.

Abstract: A method of managing priority in an electronic device, wherein the electronic device comprises a contact-less communication domain and a secure element domain, wherein the contact-less communication domain and the secure element domain are connected via a domain interface, and wherein the secure element domain comprises two or more interfaces.

Abstract: An apparatus is disclosed that in one embodiment includes a circuit configured to selectively activate a transistor. The circuit is further configured to assert a signal when the circuit detects an electrical short between terminals of the transistor or when the circuit detects the transistor does not conduct current while the transistor is activated by the circuit. The circuit is further configured to output another signal, which is set to a first state or a second state. The other signal is set to the first state when the circuit detects the electrical short. The other signal is set to the second state when the circuit detects the transistor does not conduct current while activated.

Abstract: A method for protecting data includes encrypting information to generate a first tweak, combining a data block with the first tweak, encrypting the tweaked data block to form encrypted data, combining the encrypted data with the first tweak, and providing the combined encrypted data for storage in a memory address. Storing the combined encrypted data at the memory address generates a first stimulus different from a second stimulus generated by storing same encrypted data combined with a second tweak at the memory address. The first stimulus is generated based on the first tweak and the second stimulus is generated based on the second tweak.

Abstract: A semiconductor device includes a die body having a frontside and a transistor having an active area formed in the die body, the active area being bounded by an outer periphery. An interconnect structure is formed over the frontside of the die body and contains patterned electrically conductive material defining first, second, and third contacts electrically coupled to first, second, and third subregions, respectively, within the active area of the transistor. A frontside input/output (I/O) interface is formed in an outer portion of the interconnect structure. The frontside I/O interface contains first, second, and third contact pads, the first contact pad being electrically connected to the first contact, the second contact pad being electrically connected to the second contact, and the third contact pad being electrically connected the third contact, wherein the third contact pad is positioned at a location overlying the active area of the transistor.

Abstract: A first communication device receives one or more aggregate medium access control (MAC) data units from respective one or more second communication devices. Respective aggregate MAC data units include multiple MAC data units from respective ones of the one or more second communication devices. The first communication device generates one or more acknowledgement information fields, including a first acknowledgement information field corresponding to a particular second communication device includes i) a length indication that indicates a length of an acknowledgement field, and ii) the acknowledgment field of the indicated length. The acknowledgement field includes respective acknowledgement information for at least some of the multiple MAC data units received from the particular second communication device.

Abstract: In accordance with a first aspect of the present disclosure, a control system is provided for controlling electronic devices, the control system comprising: an ultra-wideband communication unit configured to receive ultra-wideband signals from the electronic devices, and a processing unit configured to select a specific electronic device among said electronic devices for further communication, wherein the processing unit is configured to select said specific electronic device using an angle of arrival of the ultra-wideband signals received from the electronic devices. In accordance with a second aspect of the present disclosure, a corresponding control method for controlling electronic devices is conceived. In accordance with a third aspect of the present disclosure, a computer program is provided, comprising executable instructions that, when executed by a control system for controlling electronic devices, cause said control system to carry out or control a method of the kind set forth.

Abstract: One example discloses a wireless device, including: a first near-field device, including a near-field transmitter or receiver and a controller, configured to be coupled to a first conductive surface; wherein the near-field receiver includes a set of tuning values configured to either set a near-field resonance frequency or an operational bandwidth of the first near-field device; wherein the controller is configured to change at least one of the tuning values in response to a change in a distance between the first surface and a second conductive surface; and wherein the controller is configured to calculate the distance, between the first conductive surface and the second conductive surface, based on the at least one of the tuning values.

Abstract: In accordance with a first aspect of the present disclosure, an integrated circuit is provided, comprising a current source and a reference capacitor, the integrated circuit being configured to: inject, using said current source, a first current in an external measurement capacitor and determine a first amount of time within which a resulting voltage on the measurement capacitor reaches a voltage threshold; inject, using said current source, a second current in the reference capacitor and determine a second amount of time within which a resulting voltage on the reference capacitor reaches said voltage threshold; detect a change of the capacitance on the measurement capacitor using a difference between the first amount of time and the second amount of time. In accordance with a second aspect of the present disclosure, a corresponding measurement method is conceived.

Abstract: A sensor includes a movable element adapted for rotational motion about a rotational axis due to acceleration along an axis perpendicular to a surface of a substrate. The movable element includes first and second ends, a first section having a first length between the rotational axis and the first end, and a second section having a second length between the rotational axis and the second end that is less than the first length. A motion stop extends from the second end of the second section. The first end of the first section includes a geometric stop region for contacting the surface of the substrate at a first distance away from the rotational axis. The motion stop for contacting the surface of the substrate at a second distance away from the rotational axis. The first and second distances facilitate symmetric stop performance between the geometric stop region and the motion stop.

Abstract: Embodiments of a method and an apparatus for beamforming are disclosed. In an embodiment, a method for beamforming involves transmitting, by a beamformer to a beamformee, a sounding packet that includes training symbols, receiving, at the beamformee, the sounding packet that includes the training symbols, deriving, at the beamformee, channel estimates from the training symbols included in the sounding packet, computing, at the beamformee, a feedback matrix from the derived channel estimates, transmitting, by the beamformee to the beamformer, a packet that includes two sets of symbols, where the feedback matrix is applied to at least one of the two sets of symbols, receiving, at the beamformer, the packet that includes the two sets of symbols, and operating the beamformer according to the two sets of symbols included in the packet.

Abstract: In an 802.11be wireless system, data units are generated for transmission by configuring a transmitting device to process encoding parameters, including a first encoding parameter NSD and a second encoding parameter NSD,short, to select a padding boundary from pre-defined padding boundaries in the last symbol that will most closely include the number of information bits NEXCESS in the last symbol and to append padding bits to the number of information bits NEXCESS to fill up to the selected padding boundary in the last symbol, thereby generating pre-encoded data bits which are encoded for data transmission, where at least the first encoding parameter NSD is specified for an aggregated resource unit size that is allowed under the 802.11be protocol as a sum of NSD values for at two other resource units.

Abstract: A phase rotator calibration system is provided. The phase rotator calibration system includes a phase rotator portion having input for receiving an input signal and an output for providing an output signal. A calibration portion is coupled to the phase rotator portion. The calibration portion is configured to determine a phase error based on a phase estimation. The phase estimation is generated by way of an arccosine function.

Abstract: A wireless multiple antenna system (200) uses a multi-antenna subsystem (211) to generate a composite sample waveform by continuously sweeping a plurality of receive beams (RX1-RXM) during each SSB transmission in a plurality of transmit beams (TX1-TX64), generating a composite received signal strength metric value from a batch of samples collected over the plurality of receive beams to determine the presence of the SSB, and then jointly searching the composite sample waveform for an optimal receive beam and an SSB frequency of any detected SSB that are used by the UE (210) to perform a cell search which matches a transmit beam from the base station (201) to the optimal receive beam.

Abstract: A method and apparatus are described for fabricating a microchip structure (60A) which includes a first chip (41) that is affixed to a lead frame strip (11-18) having a plurality of lead frame pads (11-16) in a circuit mounting area (19) and a planar lead frame inductor coil (17) that is laterally displaced from the circuit mounting area (19), where molded body (61) encapsulates the first chip (41), lead frame pads (11-16) and planar lead frame inductor coil (17).