Abstract: System and method for adjusting a sound notification volume a mobile device are disclosed. Accordingly, the transmission signal strength is measured at the mobile device for a transmission link between the mobile device and a smart companion device that is paired with the mobile device. Subsequently, using a calibration data and the measured signal strength, a distance between the mobile device and the smart companion device is estimated. Then, using a configuration that is preset in the mobile device and the estimated distance, the sound notification volume of the mobile device is adjusted.

Abstract: A circuit for generating a modulated signal is disclosed. The circuit includes a constant current source. The circuit further includes a first switch that is coupled to the constant current source. The circuit also includes a second switch that is coupled to the first switch and a ground. The first switch and the second switch are coupled to a third switch. The third switch is coupled to a first integrated circuit pad. The first integrated circuit pad is defined to be used for coupling the third switch to a resonance circuit.

Abstract: A magnetic field sensor system for measuring rotational movements of a shaft is disclosed. The sensor system includes a biasing magnet configured for generating a biasing magnetic field and a magnetic wheel having a wheel axis and a circumferential surface which comprises a regular structure of teeth and gaps arranged in an alternating manner. The magnetic wheel is attachable to the shaft and is magnetizable by the biasing magnetic field. A magnetoresistive sensor arrangement comprising four magnetoresistive sensor elements being connected with each other in a Wheatstone bridge, respectively two of the magnetoresistive sensor elements being assigned to one half bridge of the Wheatstone bridge. The four magnetoresistive sensor elements are arranged within an x-y plane.

Abstract: The invention refers to an RF front-end (100) adapted to perform either in a receiving mode or in a transmitting mode and adapted to receive or transmit signals located in at least two separated frequency bands, respectively comprising an input and an output and further comprising an input matching circuit (1) comprising a first input coupled to the input of the RF front-end (100), an output matching circuit (2) coupled to the output; the input matching circuit (1) being coupled to the output matching circuit (2) via respective first amplifier (3) and second amplifier (4), and a phase shifter (5) coupled either to the input of the RF front-end (100) in a receiving mode, or to the output of the RF front-end (100) in a transmitting mode.

Abstract: A method of manufacturing a semiconductor device includes forming a trench that includes a needle defect, depositing a high density plasma oxide over the trench including the needle defect, removing the part of the high density oxide and the liner oxide over the needle defect by applying an oxide etch, and after the step of applying the oxide etch, etching back the needle defect by applying a polysilicon etch.

Abstract: Disclosed is an integrated circuit comprising a substrate (10) carrying plurality of circuit elements (20); a metallization stack (30) over said substrate for providing interconnections to at least some of said circuit elements, the metallization stack comprising a plurality of patterned metal layers (31) spatially separated from each other by respective electrically insulating layers (32), at least some of said electrically insulating layers comprising conductive portions (33) that electrically interconnect portions of adjacent metal layers, wherein at least one of the patterned metallization layers comprises a plurality of ion-sensitive electrodes (34), each ion-sensitive electrode being electrically connected to at least one of said circuit elements, a plurality of sample volumes (50) extending into said metallization stack, each sample volume terminating at one of said ion-sensitive electrodes; and an ion-sensitive layer lining at least the ion-sensitive electrodes in said sample volumes.

Abstract: Power switching is facilitated. In accordance with one or more embodiments, a power-switch apparatus includes a plurality of switches coupled between a voltage supply and a switched voltage output. A test control circuit operates the switches for testing a subset thereof, therein indicating a condition of the subset, which may be indicated independently from a condition of the power-switch apparatus as a whole. In some implementations, on-chip current loads are applied to emulate off-chip loads for testing the subset of switches, or individual switches.

Abstract: A system incorporated in a vehicle is disclosed. The system includes a communication system including a text messaging communication hardware to receive a message via a text messaging service. The message includes a command. The system also includes a microcontroller, coupled to the communication system and a machine control system, to execute the command through the machine control system. The machine control system is configured to control components of the vehicle. The microcontroller is configured to determine if a configuration allows execution of the received command and to return a response to the communication system.

Abstract: A method for low-level security based on the UID. In particular it enhances an RFID system by adding the ability to dynamically modify the UID of the smartcard or to randomly generate a new UID for the smartcard.

Abstract: Embodiments of a method for testing a Proportional-Integral-Derivative (PID) analog controller of a Direct Current (DC)/DC converter and a PID analog controller of a DC/DC converter are described. In one embodiment, a method for testing a PID analog controller of a DC/DC converter involves setting an analog regulation loop, which is formed by an operational transconductance amplifier (OTA) of the PID analog controller and a feedback network of the PID analog controller, to a stable condition and testing a DC parameter of the PID analog controller and setting the analog regulation loop to an unstable condition and testing an Alternate Current (AC) parameter of the PID analog controller. Other embodiments are also described.

Abstract: Methods for supplying a synchronous rectifier (SR) driver circuit and supply voltage generation circuits for a SR driver circuit are described. In one embodiment, a method for supplying a SR driver circuit involves receiving a converted voltage from a secondary winding of a transformer and generating a supply voltage for the SR driver circuit based on the converted voltage, where the supply voltage is higher than an output voltage of the transformer that is generated using the secondary winding. Other embodiments are also described.

Abstract: A near field communication device (100) for providing a communication path between a processing unit of the device and an external device, wherein the device (100) comprises the processing unit (102) and a control unit (101) coupled to the processing unit, wherein the control unit (101) is adapted for establishing a communication between the control unit and the external device (104) for providing a communication path between the processing unit and the external device via the control unit serving as a gateway.

Abstract: In accordance with one or more example embodiments, wireless communications are facilitated based on user-motion. A portable motion-sensing circuit, carried by a user, indicates that motion is sensed in response to detecting whether the user has been moving for a predetermined period of time. A communication circuit operates in active mode and inactive modes respectively consuming higher and lower power, permits or inhibits access authentication communications in the active and inactive modes, and operates in the active mode in response to the motion being sensed at the motion-sensing circuit.

Abstract: A display device comprises a substrate which carries an array of pixels. Each pixel comprises an array of apertures in the substrate, each aperture of the array having a maximum opening dimension less than the wavelength of the light to be transmitted through the aperture. The effective dielectric constant of the aperture and/or the dielectric constant of the substrate is varied, thereby to vary the light transmission characteristics of the pixel between transmission of at least one frequency in the visible spectrum and transmission of substantially no frequency in the visible spectrum.

Abstract: A semiconductor package, comprises an encapsulant which contains a semiconductor substrate, the package lower side being mountable on a surface. The semiconductor substrate backside is in close proximity of the semiconductor package lower side for improved thermal conductivity to the surface. The active side of the semiconductor substrate, facing the upper side of the semiconductor package, has a plurality of die contacts. A plurality of electrically conductive interconnects are connected to the die contacts and extend to the lower side of the semiconductor package for connecting the die contacts to the surface.

Abstract: HDMI devices coupled to interfaces in environments with high voltages, for example in an automotive vehicle, may be damaged by a short circuit between a cable and a large DC voltage. A protection circuit (100) for the high speed TMDS lines of an HDMI interface includes a DC voltage source (22, 24), a pair of capacitors (C1, C2) and a pair of splitters (12, 14). Each splitter is arranged to split a signal from respective one of the pair of electrical conductors between two signal paths, whereby one of the signal paths is coupled to the voltage source, and a second signal path is coupled to a first terminal of a respective one of the pair of capacitors. A signal received from an HDMI source (26) is split between a first path coupled to a first terminal of a respective capacitor and a second path coupled to the DC voltage source.

Abstract: A semiconductor die is disclosed comprising a lateral semiconductor device on an upper major surface of a substrate, the integrated circuit comprising a silicon layer over the substrate, a recess in the silicon layer, a layer of LOCOS silicon oxide within the recess and having a grown upper surface which is coplanar with the surface of an un-recessed portion of the silicon layer, wherein the silicon layer beneath the recess has a non-uniform lateral doping profile, and is comprised in a drift region of the lateral semiconductor device. A method of making such a die is also disclosed, as is an integrated circuit and a driver circuit.

Abstract: A phase estimator comprising a first input terminal configured to receive a first analog input signal; a second input terminal configured to receive a second analog input signal, wherein the second analog input signal is 90° out of phase with the first analog input signal. The phase estimator is configured to provide a digital word representative of the phase of the first analog input signal and the second analog input signal. The phase estimator comprises a register configured to store N bits as a digital word a first reference signal generator, a second reference signal generator and a comparator.

Abstract: A voltage regulator circuit and a method for operating the voltage regulator circuit are described. In one embodiment, a voltage regulator circuit includes an input terminal to receive an input signal from a power interface, an output terminal to output an output signal using the input signal, an output voltage monitor circuit configured to compare the voltage of the output signal with a predetermined voltage threshold, and a current limit circuit configured to limit current flowing on a path from the input terminal to the output terminal to a transient current limit level. The transient current limit level is lower than a predefined current limit threshold of the power interface. Other embodiments are also described.

Abstract: A technique for processing radio packages is disclosed. In an embodiment, the processing of a radio package is divided into subtasks and results of the radio package processing are stored on a per-subtask basis. Because the processing of a radio package is divided into subtasks and because results of the processing are stored on a per-subtask basis, context switches can be made at the subtask level instead of at the task level. With the ability to perform context switches at the subtask level, the processing of radio packages can be scheduled in a more efficient manner and context switches can be made without losing processing results that have already been generated. In addition to storing the processing results on a per-subtask basis, in an embodiment, a processing pipeline is drained on a per-subtask basis.