Abstract: A semiconductor device substrate is provided. The substrate includes an embedded trace substrate (ETS) portion. The ETS portion includes a first conductive layer embedded in the ETS portion at a first major surface. A portion of the first conductive layer is patterned to form a signal line. A non-conductive layer is disposed between the first conductive layer and a second conductive layer second embedded in the ETS portion. A third conductive layer is formed over the first major surface of the ETS portion. The third conductive layer is configured to form a stripline with the signal line of the first conductive layer.

Abstract: A radar system utilizing a linear chirp that can achieve a larger MIMO virtual array than traditional systems is provided. Transmit channels transmit distinct chirp signals in an overlapped fashion such that the pulse repetition interval is kept short and the frame is kept short. This alleviates range migration and aids in achieving a high frame update rate. The chirp signals from differing transmitters can be separated on receive in the range spectrum domain, such that a MIMO virtual array construction is possible. Distinct chirps are delayed versions of the first chirp signal. Chirps overlap in the fast-time domain, but due to delay, there is separation in the range spectrum domain. When the delay is at least the instrument round-trip delay, transmitters are separable. Further, the wavelengths are identical across transmitters such that there is no residual-range versus angle ambiguity issue present in the claimed frequency-offset modulation range division MIMO system.

Abstract: Embodiments of a method and an apparatus for wireless communications are disclosed. In an embodiment, a method for wireless communications involves transmitting, by a first multi-link device (MLD) to a second MLD, a management frame on at least one of two links associated with the first MLD and the second MLD in a multi-link operation, receiving, by the second MLD from the first MLD, the management frame on at least one of the two links, and operating the second MLD according to the management frame received on at least one of the two links.

Abstract: A system, method, and apparatus are provided for securely controlling operations of a data processing system by activating a security subsystem to control startup behavior of application subsystems, installing SMR parameters which include an initial authenticity proof for use with an initial verification process for the SMR and calculating an alternate authenticity proof for use with a subsequent verification process for the SMR, and then by subsequently verifying the SMR using the alternate authenticity proof for the subsequent verification process applied to the SMR so that the security subsystem can apply a comprehensive system reaction for the application subsystem based on the SMR verification results.

Abstract: Embodiments of a method and an apparatus for wireless communications are disclosed. In an embodiment, a method for wireless communications involves connecting, by a first multi-link device (MLD) to a second MLD via at least two links, mapping, by the first MLD, a Traffic Identifier (TID) to at least one of the two links associated with the first MLD and the second MLD, transmitting, by the first MLD to the second MLD, frames that correspond to the TID on at least one of the two links according to the mapping by the first MLD, and receiving, by the first MLD from the second MLD, subsequent frames on at least one of the two links according to the mapping by the first MLD.

Abstract: The disclosure relates to a radar transceiver having a transmitter comprising a phase shifter.

Abstract: A defrosting system includes an RF signal source, one or more electrodes proximate to a cavity within which a load to be defrosted is positioned, a transmission path between the RF signal source and the electrode(s), and an impedance matching network electrically coupled along the transmission path between the output of the RF signal source and the electrode(s). The system also includes measurement circuitry coupled to the transmission path and configured to measure one or more parameters that include voltage, current, forward signal power, reflected signal power, and S11 along the transmission path. A system controller is configured to monitor the measurements, and to modify operation of the system when a rate of change of any of the monitored parameter(s) exceeds a predetermined threshold. The impedance matching network may be a single-ended network or a double-ended network.

Abstract: Aspects of the present disclosure are directed to wireless communications based on a restricted TWT SP and buffer status. As may be implemented in accordance with one or more embodiments, frames are transmitted based on a restricted TWT SP and buffer status for communications between wireless circuits. Control data for the communications traffic may be processed in response to the restricted TWT SP, with a TXOP ending at the beginning of a restricted TWT SP of a another link, in response to the restricted TWT SP being negotiated in a different link. Such an approach may be carried out where one of the wireless circuits has no STR configuration. A protected duration time for the TWT SP may be set to a time that is less than a duration of the TWT SP in response to the TWT SP being protected by a quiet element duration period.

Abstract: In a method for simultaneously communicating with multiple communication devices in a wireless local area network a first communication device receives a plurality of uplink data units simultaneously transmitted by multiple second communication devices. The first communication device generates an acknowledgement data unit to acknowledge receipt of the multiple data units simultaneously transmitted by multiple second communication devices. The acknowledgement data unit includes (i) an indication that indicates that the acknowledgement data unit is intended for multiple second communication devices and (ii) respective acknowledgement information for the multiple second communication devices. The acknowledgement data unit is transmitted from the first communication device to the multiple second communication devices.

Abstract: Embodiments of a method and an apparatus for multi-link operations are disclosed. In an embodiment, a method of multi-link operations involves, at a multi-link station device that has a non-simultaneous transmission and reception capability (NSTR STA MLD) that supports multiple links, exchanging frames on multiple links with a multi-link access point device (AP MLD) that has at least one of a simultaneous transmission capability and a simultaneous transmission and reception (STR) capability, and maintaining, at the NSTR STA MLD, at least one of a frame exchange and a link state on multiple links with the AP MLD that has at least one of the simultaneous transmission capability and the STR capability.

Abstract: A system and method is disclosed, to generate an AC signal having a positive and negative half-cycles, each comprising a plurality of PWM pulses each with an individually designated pulse width, the system comprising: a first clock circuit; a second, faster, clock circuit; clock ratio measurement circuitry configured to output a first measurement being a ratio of frequencies; a propagation delay circuit configured to measure a number of propagation elements through which a bit transition propagates within a second clock signal period; pulse data calculation element configured to determine pulse shaping data; and for each of the half-cycles, a respective pulse synthesis circuit configured to synthesise the respective plurality of PWM pulses, each pulse having a respective start defined by the first clock signal, and a pulse width defined by the pulse shaping data and synthesised from the second clock and an output pulse from the propagation delay circuit.

Abstract: Systems and methods for providing secure application support for NFC devices in both battery on and battery off modes are provided. A first application that requires available host battery supply and a second application that does not require available host battery supply are loaded onto a mobile device. When the second application is enabled, the reader requests user input on a POS device. The first application is enabled when host battery supply is available, and the second application is enabled when no host battery supply is available.

Abstract: A method of manufacturing a semiconductor device packaging panel is provided. The method includes forming a panel having an active side and a backside. The panel includes a plurality of semiconductor die encapsulated with an encapsulant. An active surface of the semiconductor die is exposed on the active side of the panel. A warpage control carrier is attached onto the backside of the panel. The warpage control carrier includes an electroactive element configured for substantially flattening the panel while a control voltage is applied to the electroactive element.

Abstract: Embodiments of input supply circuits and methods for operating an input supply circuit are described. In one embodiment, an input supply circuit includes a bias circuit configured to define a voltage threshold in response to an input signal, and an input buffer configured to generate an output signal in response to the voltage threshold. Other embodiments are also described.

Abstract: Embodiments of a circuit, system, and method are disclosed. A beam switch to a beam with a beam configuration from another beam with another beam configuration is detected. In response to the detected beam switch: a tuner setting is determined for an antenna tuner of an antenna element in an antenna array which transmits the first beam with the first beam configuration based on the first beam configuration, the tuner setting associated with the first beam configuration; and an indication of the tuner setting is provided to an impedance matching system of the antenna tuner to compensate for a mismatch between an impedance of the antenna element and impedance of one or more other radio frequency (RF) components of an RF front-end having the antenna element and antenna tuner.

Abstract: An encapsulant compound apparatus, includes a mechanical operator, and an insert disposed on a surface of the mechanical operator. The insert operates to capture foreign material in the encapsulant compound.

Abstract: An already deployed phased array can be calibrated in the near field without the need for an anechoic chamber or complex positioning mechanisms. Calibration includes positioning a transmitting antenna in the near field in front of the receiving antennas and generating range profiles while the transmitting antenna is positioned at various locations. The range profiles are utilized to produce various defined vectors that are then used in calculations that output a coupling calibration matrix and two vectors that compensate for receiver channel length and gain differences. The coupling calibration matrix and the vectors are input into the processing unit of the phased array in order to calibrate the receiving channels relative to each other.

Abstract: Systems and methods for reducing the power consumption of end devices in wireless mesh networks are described. In an illustrative, non-limiting embodiment, an end device may include: a controller; and a memory coupled to the controller, wherein the memory comprises program instructions stored thereon that, upon execution by the controller, cause the end device to transmit a frame to a parent device in a wireless mesh network, wherein the frame has a Frame Pending (FP) bit set to indicate, to the parent device, that the end device is ready to receive data from the parent device in the absence of a subsequent data request.

Abstract: Embodiments of a device and method are disclosed. In an embodiment, a Doherty amplifier module includes a first amplifier die with a first output terminal, a second amplifier die with a second output terminal, and a wideband impedance inverter circuit electrically coupled between the first and second output terminals. The wideband impedance inverter circuit includes a network of capacitors, the network of capacitors including at least a series capacitor having a positive capacitance, a first shunt circuit having a first negative capacitance, and a second shunt circuit having a second negative capacitance.

Abstract: Various embodiments relate to a method and system for stopping a target detection greedy algorithm used in a radar system having a sparse array, including: running an iteration of the target detection greedy algorithm on signals received by the sparse array; adding a complex DC component to a residue produced by the target detection greedy algorithm; estimating the variance of the noise in the received signal; testing a first null hypothesis using the estimate of the variance of noise in the received signal and the average of the square magnitude of the complex data of the received signal; and stopping the target detection greedy algorithm when the first null hypothesis test passes.