Abstract: According to an aspect of this disclosure, a mobile communication device is provided comprising a positioning circuit configured to determine the geographical position of the mobile communication device; a requester configured to generate a request for information about the geographical position of the mobile communication device; a location management circuit configured to receive an indication of the determined geographical position of the mobile communication device from the positioning circuit; receive the request from the requester, process the request and provide information about the geographical position of the mobile communication device based on the result of the processing of the request and based on the indication of the geographical position of the mobile communication device to the requester.

Abstract: This disclosure relates frequency channel qualification in wire-free communications system.

Abstract: A user equipment includes a plurality of antennas to receive downlink signals from a base station, a plurality of receiver circuits each coupled to a respective one of the plurality of antennas to process the received downlink signals, an SIR estimation unit to estimate a quality of the received downlink signals, a power loop controller to generate transmit power control commands based on the estimated quality of the received downlink signals, the transmit power control commands being directed to the base station to adjust a power of the downlink signals and a diversity controller to selectively activate and deactivate one or more of the receiver circuits depending on the estimated quality of the received downlink signals.

Abstract: A feedback loop is used to determine phase distortion created in a signal by directly extracting the phase distortion information from a feedback signal using original frequency modulation information.

Abstract: A method for controlling a transmit power in a radio communications system includes receiving a request to increase a transmit power of an uplink channel and determining whether the transmit power was at a maximum upon receipt of a previous request to increase the transmit power preceding the received request. If the transmit power was not at the maximum upon receipt of the previous request, the transmit power is increased by a first step size and if the transmit power was at the maximum upon receipt of the previous request, the transmit power is increased by a second step size greater than the first step size.

Abstract: A radio communication device including a receiver configured to receive radio signals, a measurement circuit configured to measure the receiving quality of received radio signals, and a controller configured to control the measurement circuit such that a first measurement is carried out using a first frequency bandwidth, thereby determining a first receiving quality, and if the determined first receiving quality fulfills a first receiving quality criterion, a second measurement is carried out using a second frequency bandwidth, wherein the second frequency bandwidth is larger than the first frequency bandwidth, thereby determining a second receiving quality.

Abstract: One embodiment of the present invention relates to a silicon-controlled-rectifier (SCR). The SCR includes a longitudinal silicon fin extending between an anode and a cathode and including a junction region there between. One or more first transverse fins traverses the longitudinal fin at one or more respective tapping points positioned between the anode and the junction region. Other devices and methods are also disclosed.

Abstract: A workpiece has at least two semiconductor chips, each semiconductor chip having a first main surface, which is at least partially exposed, and a second main surface. The workpiece also comprises an electrically conducting layer, arranged on the at least two semiconductor chips, the electrically conducting layer being arranged at least on regions of the second main surface, and a molding compound, arranged on the electrically conducting layer.

Abstract: A blank and a semiconductor device include a composite panel with semiconductor chips embedded in a plastic package molding compound. The blank includes a composite panel with semiconductor chips arranged in rows and columns in a plastic package molding compound with active upper sides of the semiconductor chips forming a coplanar surface area with the upper side of the composite panel. The blank further includes an orientation indicator impressed into the plastic package molding compound when the semiconductor chips are embedded within the molding compound.

Abstract: A wireless communication base station comprising a plurality of application specific instruction set processors (ASISPs) configured to support one or more processes hosted by the base station, and to track process state information associated with each of the processes; and a memory configured to store the tracked process state information, and when an ASISP of the plurality of ASISPs is reallocated from a first process to a second process, the respective ASISP is configured to retrieve from the memory process state information for the second process.

Abstract: A method for providing a communication session may include establishing, during an established communication session between a first communication device and another communication device, a communication connection with a second communication device; determining, as to whether one or more communication services provided in the communication session by the first communication device should be provided by the second communication device; and in case at least one of the communication services provided in the communication session should be provided by the second communication device, establishing a communication session connection for the at least one communication service of the communication session, and providing the at least one communication service by the second communication device within the established communication session.

Abstract: The disclosed invention relates to a transceiver system comprising a notch filter element configured to suppress transmitter blockers (i.e., transmitter interferer signals) within a reception path. In some embodiments, the transceiver front-end comprises a differential reception path, having a first differential branch and a second differential branch, configured to provide an RF differential input signal having a transmitter blocker to a transimpedance amplifier, comprising a first-order active filter and a notch filter element. The notch filter element comprises a stop band corresponding to a frequency of a transmitted signal, such that the notch filter element suppresses the transmitted blocker without degrading the signal quality of the received differential input signal.

Abstract: One embodiment of the present invention relates to a modulation system having a phase locked loop and an adaptive control. The phased lock loop is configured to receive an input signal and an adaptive signal. The input signal is an unmodulated signal, such as a phase component or phase signal. The phase locked loop is also configured to provide an error signal and an output signal. The error signal indicates one or more modulation errors. The output signal is a modulated version of the input signal that has been corrected using the adaptive signal to mitigate the one or more modulation errors.

Abstract: A distortion estimation apparatus for estimating distortion includes a feedback element, a nonlinearity determiner, and a distortion simulator. The feedback element provides a feedback signal derived from a distorted output signal of the distorting element. A signal processing quality of the feedback element is lower than an associated signal property of the distorted output signal. The nonlinearity determiner receives the feedback signal and an input signal to the distorting element or a signal derived from the input signal. The nonlinearity determiner determines an estimated transmission characteristic of the distorting element by relating signal properties of the feedback signal and the input signal or the signal derived from the input signal. The distortion simulator estimates the distortion caused by the distorting element based on the input signal or the signal derived from the input signal and the estimated transmission characteristic.

Abstract: A radio receiver apparatus of a cellular network includes a channel estimator configured to calculate channel estimates on the basis of a common pilot channel. The apparatus further includes a weight calculation unit configured to calculate a weighting factor on the basis of a signal power of the common pilot channel and control data depending on a transmit signal power of a dedicated data channel. The control data is signaled by the cellular network to the radio receiver apparatus. The radio receiver apparatus further comprises a combiner that combines the signals from multiple cells by using the channel estimates and the weighting factor.

Abstract: A method of transmitting data is described comprising selecting a transmission mode from at least a first and a second transmission mode, wherein according to the first transmission mode data is transmitted in at least two first time periods using first communication resources wherein the at least two first time periods are separated by a first time interval, wherein according to the second transmission mode data is transmitted in at least two second time periods using second communication resources wherein the at least two second time periods are separated by a second time interval, and wherein the first time interval is longer than the second and the first communication resources allow the transmission of a higher amount of data than the second communication resources; and transmitting data according to the selected transmission mode.

Abstract: In an embodiment, a radio communication device may be provided. The radio communication device may include a first receiver configured to receive from a first cell first data representing a content encoded using a first codec; a second receiver configured to receive from a second cell second data representing the content encoded using a second codec; and a combiner configured to combine the first data and the second data.

Abstract: Disclosed herein are techniques, systems, and methods relating to minimizing mutual coupling between a first antenna and a second antenna. In one implementation, a plurality of antennas and at least one tuning module are provided. A control module may be coupled to the tuning module. The control module may be configured to control the at least one tuning module to alter a phase and an amplitude of a control signal communicated to at least one of the plurality of antennas to reduce mutual coupling between the plurality of antennas.

Abstract: A circuit arrangement is disclosed with a radio-frequency mixer in which a plurality of preamplifiers in a receiver have a common output node. This node is connected to a common, broadband radio-frequency mixer via common coupling capacitances. Switching means can be used to connect and disconnect the preamplifiers, which can be associated with various frequency bands, independently of one another. The present principle can be applied in multiband receivers in mobile radio and allows integration using little chip area with good radio-frequency characteristics.

Abstract: A dynamically reconfigurable universal transmitter system is disclosed herein. The electronic device includes multiple transmitter resources for generating transmission signals, an output bus, and an antenna summer coupled to the output bus. The output bus is selectively coupled to the plurality of transmitter resources and it selectively receives transmission signals from the plurality of transmission resources. The antenna summer stores transmission signals received on the output bus.