Abstract: A lead-frame assembly is disclosed, for a semiconductor die and comprising a die attach pad and a plurality of elongate leads spaced apart therefrom; wherein each elongate lead has a first proximal end portion, a second distal end portion and a middle portion therebetween; wherein the die attach pad and each of the plurality of elongate leads each comprise a coating-free portion, and a coated portion having a coating material thereon; wherein a part of a perimeter of the die attach pad proximal each lead is comprised in the coating-free portion, and wherein the proximal end portion of each elongate lead is comprised in the coating-free portion. Associated package assemblies and methods are also disclosed.

Abstract: A controller for a communication and ranging apparatus wherein the apparatus is configured to transmit both a data signal and a ranging signal, wherein the controller is configured to: determine a scheduled transmission event of the data signal; determine a scheduled transmission event of the ranging signal; determine if the scheduled transmission events will occur within a predetermined time window of each other; if it is determined that the scheduled transmission events will occur within a predetermined time window of each other, then determine a priority signal and a secondary signal, wherein: the priority signal is one of the data signal and the ranging signal; and the secondary signal is the other of the data signal and the ranging signal; and provide signaling configured to prevent the scheduled transmission event of the secondary signal from being transmitted such that only the scheduled transmission event of the priority signal is transmitted.

Abstract: A computer-implemented method, network switch and computer program product for performing exact match lookup operations in a table. A hash of the lookup key is performed to generate a value which is used to identify a location in the hash memory space. The generated value is separated into a bucket row, a bucket column, a bucket plane and a secondary hash value, where the bucket row, bucket column and bucket plane are used to identify an originating home hash root bucket. The head entry on the collision chain of a hash root bucket identified via the secondary hash value that is a neighbor to the home hash root bucket is read to determine if an exact match of the lookup key exists. If the head entry exactly matches the lookup key, then a finding of an exact match of the lookup key is reported.

Abstract: An embodiment of a semiconductor device includes a semiconductor substrate, a first dielectric layer disposed over the upper surface of the semiconductor substrate, and a first current-carrying electrode and a second current-carrying electrode formed over the semiconductor substrate within openings formed in the first dielectric layer. A control electrode is formed over the semiconductor substrate and disposed between the first current-carrying electrode and a second current-carrying electrode and over the first dielectric layer. A first conductive element is formed over the first dielectric layer, adjacent the control electrode and between the control electrode and the second current-carrying electrode. A second dielectric layer is disposed over the control electrode and over the first conductive element. A second conductive element is disposed over the second dielectric layer and over the first conductive element.

Abstract: One example discloses a first-device: wherein the first-device is configured to be coupled to a second-device over an IEEE 802.11 communications link; and wherein the first-device is configured to, store a current setup between the first-device and the second-device; identify a unique identifier of the second-device; transmit a request frame to a third-device; wherein at least one of the second-device and third-device is a multi-link-device (MLD); wherein the request frame is configured to request an association with the third-device and includes the unique identifier of the second-device; receive a response frame from the third-device; and wherein the response frame includes an indication that request was successful.

Abstract: A power down signal generator generates a power down signal. The power down signal generator includes a detection transistor, a resistor coupled in series with the detection transistor, and a compensation transistor coupled in parallel to the resistor. The detection transistor receives a first supply voltage in a first voltage domain and a current. A control voltage is generated across the resistor based on a first part of the current. The compensation transistor receives a bias voltage derived from a second supply voltage in a second voltage domain and sinks, based on the bias voltage, a second part of the current to maintain the control voltage within a predefined range. The generation of the power down signal is controlled based on the first supply voltage and the control voltage.

Abstract: An antenna switch circuit and an antenna circuit switching method. The circuit includes an antenna port, a termination port (e.g., for disposal of power reflected back from an antenna and received through the antenna port in a transmit mode), and a receive port (e.g., for receiving a signal from the antenna port via the antenna switch circuit in a receive mode). The circuit also includes a first switch coupled between the antenna port and the termination port. The circuit further includes a resonant inductance coupled between the receive port and the node located between the antenna port and the first switch. The circuit also includes a second switch coupled between a reference potential and a node located between the resonant inductance and the receive port.

Abstract: Various embodiments relate to a data processing system comprising instructions embodied in a non-transitory computer readable medium, the instructions for masked sampling of polynomials for lattice-based cryptography in a processor, the instructions, including: determining a number m of random bits to be sampled based upon a sample bound parameter ?; producing a plurality of Boolean masked shares of a polynomial coefficient each having the determined number m of random bits using a uniform random function; determining that the polynomial coefficient is within a range of values based upon the sample bound parameter ?; converting the plurality of Boolean masked shares of the polynomial coefficient to a plurality of arithmetic masked shares of the polynomial coefficient; and shifting the plurality of arithmetic masked shares based upon the sample bound parameter ?.

Abstract: A method and apparatus of access control as described. A touch of a touch zone of an access controller including a body area network (BAN) transceiver is detected. In response to detecting the touch, a request from an access controller comprising a BAN transceiver via a body area network is transmitted to a user of a portable device including a BAN transceiver and a biometric sensor. The request is received by the portable device via the BAN network. In response to receiving the request, the portable device transmits a digital key comprising biometric data detected by the biometric sensor and a digital identifier from the portable device to the access controller via the BAN network. The user is authenticated by the access controller using the digital key. The access controller controls and actuator to lock or unlock a door in response to the user being authenticated.

Abstract: Various embodiments relate to a method performed by a first wireless device for announcing operating capabilities to a second wireless device, wherein the first wireless device and second wireless device support a first protocol and a second protocol, including: announcing by the first device original capabilities to the second device; receiving an announcement of capabilities from the second device; receiving frames from the second device in PHY Protocol Data Units (PPDUs) following the first protocol and the second protocol; announcing by the first device a change in its capabilities to the second device; and receiving frames from the second device in PPDUs transmitted using the changed capabilities following the first protocol and the second protocol, wherein the change in the capabilities includes a change in a one of a puncture parameter, bandwidth parameter, mode and coding scheme (MCS) parameter, and a number of simultaneous streams (Nss) parameter.

Abstract: In accordance with a first aspect of the present disclosure, a storage device is provided, comprising: a capacitor configured to be charged; a charge circuit configured to charge said capacitor; a pass device coupled between the charge circuit and the capacitor; a control circuit configured to control said pass device; a photosensitive diode coupled between the control circuit and the pass device, such that an input voltage provided by the control circuit to the pass device is reduced if the storage device is exposed to light. In accordance with a second aspect of the present disclosure, a corresponding method of producing a storage device is conceived.

Abstract: A wireless network includes a networking device and various stations. The networking device determines an available bandwidth of each station of the wireless network. Further, the networking device assigns a bandwidth and at least one spatial stream to each station. The bandwidth assigned to each station is less than or equal to the available bandwidth of the corresponding station. Further, the bandwidth assigned to one station is different from and partially overlaps with the bandwidth assigned to another station. Similarly, the spatial stream assigned to one station is different from the spatial stream assigned to another station. The networking device generates a data packet indicative of the bandwidth and the spatial stream assigned to each station of the wireless network, and transmits the data packet to each station to enable multi-user multiple-input-multiple-output (MU-MIMO) communication between the networking device and the stations.

Abstract: A method for authenticating a first party to a second party, the method comprising: i) providing a token, wherein the token is at least a part of a mobile entity and wherein the token is coupled to a secret being indicative for the identity of the first party, ii) coupling the token with an access point by establishing a physical contact, iii) transferring the secret to the access point, iv) linking the secret with a location information of the access point, thereby providing an authentication token being indicative for the identity and the location of the first party, and v) providing the authentication token to the second party.

Abstract: A modem for a non-standalone network includes a 5G-NR modem and an E-UTRA modem. The 5G-NR modem includes a cell search module which determines first timing information. The first timing information includes first times indicative of the times of receipt of one or more first radio frames from a first 5G-NR base station measured relative to a network time. The 5G-NR modem also provides for the sending of system frame timing difference (SFTD) information for the first base station to a network controller by sending the first timing information to the E-UTRA modem. The E-UTRA modem then determines and forwards the SFTD information using the first timing information and second timing information. The second timing information is determined by the E-UTRA modem and includes second times indicative of the times of receipt of one or more second radio frames from a second E-UTRA base station.

Abstract: A method and data processing system are provided for detecting a malicious component in a data processing system. The malicious component may be of any type, such as a hardware trojan, malware, or ransomware. In the method, a plurality of counters is used to count events in the data processing system during operation, where each event has a counter associated therewith. A machine learning model is trained a normal pattern of behavior of the data processing system using the event counts. After training, an operation of the data processing system is monitored using the machine learning model. Current occurrences of events in the data processing system are compared to the normal pattern of behavior. If a different pattern of behavior is detected, an indication, such as a flag, of the different pattern of behavior is provided.

Abstract: In accordance with a first aspect of the present disclosure, a near field communication (NFC) device is provided, comprising: an NFC unit configured to charge an external device under charge by transferring power to said device under charge through an NFC channel; a detection unit configured to detect predefined events occurring on the NFC channel when said power is being transferred to the device under charge; a processing unit configured to control the transferring of power to the device under charge in dependence on the events detected by the detection unit. In accordance with a second aspect of the present disclosure, a corresponding method of operating a near field communication (NFC) device is conceived.

Abstract: Embodiments of a physical unclonable function (PUF) device and a method for generating helper data for a PUF device with an array of cells are disclosed. In an embodiment, the PUF device comprises an array of cells, wherein each cell of the array generates an output signal, a reliable cell group detector coupled to the array of cells to find reliable groups of cells in the array of cells having sufficient reliable cells and output addresses of the reliable groups of cells, and a storage device coupled to the reliable cell group detector to store the addresses of the reliable groups of cells to be used as helper data for PUF response operations.

Abstract: The disclosure relates to a system for transmitting Protocol data units (PDUs). Example embodiments include a system comprises a radio link control (RLC) layer for storing a RLC PDU list of RLC Protocol Data Units (PDUs) received from a ProtocolData Convergence Protocol (PDCP) layer. The control layer comprises a transmission block for transmission to a Media Access Layer (MAC) layer in a transmission event, wherein the transmission block is populated with a subset of PDUs in the RLC PDU list. When the transmission block is near a storage limit, the system scans the RLC PDU list for a PDU that best fits a remaining grant of the transmission block to complete population of the transmission block. The control layer further comprises a priority list for storing PDUs of the RLC PDU list scanned by the system that were greater in size than the remaining grant.

Abstract: An entry system is provided that includes a radio frequency (RF) communication unit configured to transmit a wake-up signal to an external authentication device, one or more ultra-wideband (UWB) communication nodes configured to operate in a radar mode, wherein the nodes are configured to receive one or more radar signals reflected by an external object when operating in the radar mode, and a processing unit configured to cause the RF communication unit to transmit the wake-up signal if the UWB communication nodes receive the radar signals.

Abstract: An access point device operable in a wireless network detects multi-band capability of a wireless client based on a probe request received from the wireless client on the non-preferred communication band. The multi-band capability is detected based on a set of parameters included in the received probe request. When the wireless client is detected to have the multi-band capability, the access point device blocks the attempt of the first wireless client to associate on the non-preferred communication band. The access point device allows the wireless client to associate on one of the non-preferred communication band and a preferred communication band based on a count of probe requests received by the access point device from the wireless client on the non-preferred communication band. Upon association on the non-preferred communication band, the access point device steers the associated wireless client to the preferred communication band.