Abstract: Methods of data traffic shaping, an apparatus and a wireless device are provided. A method of data traffic shaping comprises receiving data packets, the data packets to be forwarded; storing at least one of the data packets in a buffer memory if the buffer memory has an available space for accommodating the at least one of the data packets; and discarding at least one other of the data packets if the buffer memory does not have an available space for accommodating the at least one other of the data packets. An apparatus is configured to carry out the method. A wireless device may include the apparatus.

Abstract: Apparatuses and methods related to time-to-digital converters (TDCs) are herein described. Generally, a time-to-digital converter is a device which measures a time period or time interval and outputs a digital value representing the measured time period. In an implementation, an apparatus is provided comprising a time-to-digital converter circuit, which further comprises a built-in self test (BIST). The built-in self test may be implemented using one or more oscillators coupled to the time-to-digital converter via one or more multiplexer devices.

Abstract: A processing module, a processor circuit, an instruction set for processing data, and a method for synchronizing the processing of codes are provided. In an embodiment of the invention, a processing module for processing instructions, the instructions relating to user data and control data according to a communication protocol. The processing module includes a first processing circuit configured to process the instructions relating to the control data, and a second processing circuit configured to process the instructions relating to the user data.

Abstract: A communication terminal is provided comprising a transceiver configured to transmit data in accordance with a plurality of transmission processes wherein each transmission process may be activated or deactivated, a receiver configured to receive a message including a message field which specifies a number of transmission processes to which a request for transmission process activation or deactivation is to be applied and a controller configured to activate or deactivate the number of transmission processes in accordance with the request.

Abstract: The method is based on a signal interval (DB) which comprises a first part (ET) (which is modulated using a first modulation method (GFSK)) of the signal interval and a second part (which is modulated using a second modulation method (DMPSK)) of the signal interval. The channel parameters (c(i)) relating to the second part (which is modulated using the second modulation method) of the signal interval are determined using a received data signal (a(i); p(i)) from the first part (ET) of the signal interval (DB).

Abstract: A component and a method for producing a component are disclosed. The component comprises an integrated circuit, a housing body, a wiring device overlapping the integrated circuit and the housing body, and one or more external contact devices in communication with the wiring device.

Abstract: The disclosed invention relates to a transceiver system configured to cancel RF second-order intermodulation distortion (IMD2) within a differential reception path. In some embodiments, the transceiver system has one or more common-mode attenuation elements that attenuate common-mode interferer signals within the differential reception path. The common-mode attenuation elements detect a common-mode interferer from one or more nodes within a transceiver system front-end. One or more properties of the detected common-mode interferer are adjusted and then fed into the differential reception path, where the adjusted common-mode signal attenuates the common-mode interferers. In other embodiments, the differential reception path has a tunable amplifying stage. The tunable amplifying stage has first and second amplifier elements that are independently operated to intentionally introduce an operating parameter mismatch between the elements.

Abstract: A data processing system including a memory configured to store confidential data and non-confidential data; a cache memory which is configured to cache data stored in the memory and which comprises a first cache memory region and a second cache memory region; a processing circuit configured to carry out, in a first state of the data processing system, a cryptographic algorithm which operates on the confidential data and on the non-confidential data, wherein the confidential data are cached using the first cache memory region and the non-confidential data are cached using the second cache memory region; and an invalidating circuit configured to invalidate the first cache memory region when the data processing system switches from the first state into a second state.

Abstract: A mobile radio communication system having a mobile radio communication network and a mobile radio subscriber appliance, wherein a unit in the network layer of the core network of the mobile radio communication network is configured to transmit to the mobile radio subscriber appliance a first message, based on an occurrence of a predetermined event, with a request for a statement which describes at least one radio characteristic of the mobile radio subscriber appliance.

Abstract: A method for calibrating a supply voltage of an envelope tracking PA (power amplifier) is provided. The method includes obtaining a plurality of calibrated PA supply voltage values using a PA output power sequence having a plurality of different PA output power values. Thereby, an order of the PA output power values of the PA output power sequence is chosen such that a junction temperature of the PA is maintained during calibration within a temperature range that occurs during non-calibration envelope tracking operation.

Abstract: A mobile communications radio receiver for multiple radio network operation includes an RF unit for generating a first down-converted signal from a radio signal received from a first radio network and a second down-converted signal from a radio signal received from a second radio network. Further, the receiver includes a first receiving unit including a user data channel demodulator configured to demodulate a dedicated user data physical channel and a control channel demodulator configured to demodulate a common control data channel of the first radio network based on the first down-converted signal. Still further, the receiver includes a second receiving unit including a pilot channel demodulator configured to demodulate a pilot channel of the second radio network based on the second down-converted signal. A first data connection is configured to couple control data contained in the second down-converted signal to the control channel demodulator of the first receiving unit.

Abstract: An electronic package includes a flip-chip component having a first die coupled to a flip-chip substrate, second die stacked on the first die, an encapsulation compound formed around the first die and the second die, a set of through encapsulant vias (TEVs) providing a set of electrical connections from a first side of the electronic package to a second side of the electronic package through the encapsulation compound to the flip-chip substrate, and a redistribution layer electrically connecting a set of contacts on the second die to the set of TEVs on the first side of the electronic package.

Abstract: According to an aspect of this disclosure, a method for transferring data from a first device to a second device is described, the method comprising: writing data into a data-sharing application of an operating system of the first device; requesting a data-sharing application to select a physical layer data transmission technology; the data-sharing application selecting a physical layer data transmission technology; connecting a data-sharing of an operating system of the second device via the selected physical layer data transmission technology; and transferring the data from the data-sharing application of the first device to the data-sharing application of the second device.

Abstract: A method for fabricating a semiconductor chip module and a semiconductor chip package is disclosed. One embodiment provides a first layer, a second layer, and a base layer. The first layer is disposed on the base layer, and the second layer is disposed on the first layer. A plurality of semiconductor chips is applied above the second layer, and the second layer with the applied semiconductor chips is separated from the first layer.

Abstract: A method and a device for controlling uplink/downlink power for radio communication is disclosed. The method includes receiving a radio communications signal in a radio receiver, estimating one or more parameters indicative of the transmission quality of the received radio communications signal based on power control information bits and pilot symbol bits in the radio communications signal, and generating a control signal for the radio receiver and/or the radio transmitter.

Abstract: A circuit arrangement includes a component having a closed signal path, that closed signal path connected to a first port, a second port and at least a third port. The component has a directed signal flow of a signal applied to one of that ports. Such a coupling device can be connected to a transmitter and to a receiver path, respectively.

Abstract: A flip chip package structure is proposed in which a redistribution layer (RDL) is disposed on a surface of both a semiconductor chip and one or more lateral extensions of the semiconductor chip surface. The lateral extensions may be made using, e.g., a reconstituted wafer to implement a fanout region lateral to one or more sides of the semiconductor chip. One or more electrical connectors such as solder bumps or copper cylinders may be applied to the RDL, and an interposer such as a PCB interposer may be connected to the electrical connectors. In this way, a relatively tight semiconductor pad pitch may be accommodated and translated to an appropriate circuit board pitch without necessarily requiring a silicon or glass interposer.

Abstract: A method for modifying a characteristic of a representation of a complex-valued signal which comprises at least a representation of a first and a second complex-valued symbol comprising deriving a relative phase angle between the representation of the first and the second complex-valued symbols. The method further comprises combining a representation of a complex-valued enhancement pulse and the representation of the complex-valued signal to obtain a representation of a first and a second corrected complex-valued symbol, wherein the enhancement pulse is chosen such that the relative phase angle between the first and second corrected symbols is smaller than a predetermined threshold.

Abstract: Examples of a user interface are described that may include a graphical representation of computing devices in the same network or area as a first computing device. A user may drag his or her finger (slide gesture) between the representations of the computing devices in order to perform data transactions between the computing devices without having to monitor those other computing devices. The locations of the computing devices may be intermittently updated on the user interface. Also, the speed of the slide gesture may determine the data transaction that is to be performed.

Abstract: A phase locked loop has a controlled oscillator for outputting an oscillator signal depending on a control signal. A comparator generates a comparison result from a comparison between a reference frequency signal and a feedback signal derived from the oscillator signal. The phase locked loop also has a filter block for filtering the comparison result and for deriving the control signal from the comparison result, where the filter block has a loop filter and a rejection filter for the frequency-selective attenuation of at least one first interference frequency in the comparison result.