Abstract: An electronic device may be provided with wireless circuitry. The wireless circuitry may include antennas. The antennas may include phased antenna arrays for handling millimeter wave signals. Antennas may be located in antenna signal paths. The antenna signal paths may include adjustable components such as adjustable filters, adjustable gain amplifiers, and adjustable phase shifters. Circuitry may be incorporated into an electronic device to facilitate wireless self-testing operations. Wireless self-testing may involve use of one antenna to transmit an over-the-air antenna test signal that is received by another antenna. The circuitry that facilitates the wireless self-testing operations may include couplers, adjustable switches for temporarily shorting antenna signal paths together, mixers for mixing down radio-frequency signals to allow digitization with analog-to-digital converters, and other circuitry for supporting self-testing operations.

Abstract: The present application relates to the mobile communications field, and in particular, to a technology for determining a carrier center frequency in a wireless communications system. In a method for determining a carrier center frequency, a carrier center frequency used by a base station and UE to communicate is determined according to a frequency band starting frequency, an absolute radio frequency channel number, a frequency band offset, and a relative radio frequency channel number. According to a solution provided in this application, a time for searching for a cell by a terminal can be reduced, power consumption of the terminal can be reduced, and a battery life can be extended.

Abstract: Aspects of the subject disclosure may include, a communication device having a dielectric antenna, a radio housing, a hollow waveguide and an antenna stabilizer. The radio housing can enclose a transmitter that generates electromagnetic waves. The hollow waveguide can have a cavity therethrough to facilitate transmission of the electromagnetic waves to a feed point of the dielectric antenna for guidance of the electromagnetic waves without requiring an electrical return path, where the electromagnetic waves generate near-field wireless signals. The antenna stabilizer can facilitate coupling the hollow waveguide to the feed point of the dielectric antenna. Other embodiments are disclosed.

Abstract: Various embodiments concern motion sensor modules able to monitor movement. A motion sensor module can be detachably connected to an electronic device to which the motion sensor module transfers motion data. In some embodiments, the motion sensor module is connected to an electronic device associated with an individual. In other embodiments, the motion sensor module is embedded within an article of clothing worn by the individual (e.g., a shirt, swimsuit, or shoe). The motion sensor module includes at least one inertial measurement unit (IMU) that generates motion data indicative of the motion of the motion sensor module as a whole.

Abstract: Systems and methods for processing radiofrequency signals using modulation duty cycle scaling. One system includes a first receive path configured to directly sample a first signal in a first frequency range. The system includes a second receive path configured to convert a second signal in a second frequency range. The second receive path includes a receive modulator operating over a duty cycle. The receive modulator is configured to adjust the duty cycle by a predetermined scaling factor.

Abstract: Systems and methods which utilize wireless charging to initiate near field communication (NFC) pairing between mobile systems which utilize wireless charging and wireless charging base stations. Wireless signals sent by a mobile system over a wireless charging channel are used to initiate communication between an NFC reader presented in a base station and a passive NFC tag (or an active NFC tag used in a passive mode) present in the mobile system. Such feature allows the mobile system to act as an initiator for NFC communication without requiring the mobile system to be equipped with an NFC reader. A wireless power receiver of a mobile system may communicate with a wireless power transmitter of a base station using backscatter modulation. Commands of a standard wireless charging protocol may be repurposed to send a request for initiation of an NFC session from a mobile system to a base station.

Abstract: A method of transferring data between a first device and a second device comprises: bringing a first object into an activation zone of a near-field communication module so as thereby to establish a near-field communication link between the module and the first object. The near-field communication module sends a control signal to at least one of the first and second devices to begin a second communication session through a second, different channel between the first and second devices and the data is transferred between the first device and the second device in the second communication session. The second communication session is ended if the first object is removed from the activation zone.

Abstract: A QoE (quality of experience) system utilizes QoS (quality of service) of a mobile network and specification of user device connected for providing a personalized metric (QoE) that represents an expected level of user experience at a geographic location. The personalized metric can be calculated based on the QoS of the mobile network at the geographic location and hardware/software characteristics of the user device to implement specific services at the user device using the mobile network. While QoS of the mobile network merely represents quality of network communication regardless of device characteristics, QoE can represent actual expectation of user experience at a user device using the mobile network.

Abstract: A method for detecting oscillation in a signal coupling device includes at least one oscillation detection step. The oscillation detection step includes the steps of determining an undamped signal level of a signal on a signal path of the signal coupling device in a first step, reducing a gain of the signal path in a second step, and determining a damped signal level of the signal on the signal path and a deviation between the undamped signal level and the damped signal level at least once in a third step. An oscillation is detected if at least one deviation determined in the third step of the at least one oscillation detection step is higher than or equal to a predetermined oscillation threshold value. A device for detecting oscillation in a signal coupling device and a signal coupling device are also provided.

Abstract: An elastic wave device includes a LiNbO3 substrate, an IDT electrode provided on the LiNbO3 substrate, and a dielectric film that is provided on the LiNbO3 substrate so as to cover the IDT electrode and includes a projection on an upper surface of the stated dielectric film. A main mode of an elastic wave excited by the IDT electrode uses a Rayleigh wave, and a thickness of the IDT electrode is set such that a frequency at which a response by an SH wave appears is lower than a resonant frequency of the Rayleigh wave.

Abstract: An electronic device may include processing circuitry having a first impedance coupled to a first circuit board, where the electronic device uses the processing circuity to generate one or more radio frequency signals. The electronic device may also include power circuitry to amplify the one or more radio frequency signals, where the power circuitry is coupled to a second circuit board. An interposer may be disposed between the first circuit board and the second circuit board. The interposer may include a via structure having a characteristic impedance to match the first impedance and the second impedance, where the via structure may transmit the one or more radio frequency signals through the interposer between the processing circuitry and the power circuitry.

Abstract: The present disclosure describes techniques and systems for wireless communication via a mobile relay. These techniques may include a user device that determines that a transceiver is unavailable for communicating with a base station via a wireless connection. The user device then uses a mobile relay to communicate with the base station while the transceiver is unavailable. The mobile relay may be used for transmitting or receiving data from the base station. Additionally or alternatively, the mobile relay may participate in the wireless connection as an external resource of the mobile device or may establish an independent wireless connection with the base station.

Abstract: According to one embodiment, a radio frequency (RF) receiver circuit includes a low noise amplifier, a poly-phase filter, and an in-phase quadrature (IQ) mixer circuit coupled between the low noise amplifier and the poly-phase filter. The IQ mixer circuit includes an IQ generator having a differential in-phase input port, a differential in-phase output port, and a differential quadrature output port; a first frequency mixer having a differential local oscillator (LO) input port, where the differential LO input port of the first frequency mixer are coupled to the differential in-phase output port of the IQ generator to drive the first frequency mixer; and a second frequency mixer having a differential LO port, where the differential LO input port of the second frequency mixer are coupled to the differential quadrature output port of the IQ generator to drive the second frequency mixer.

Abstract: A transmitter for a dual-frequency satellite-to-earth downlink. The transmitter comprises a plurality of modulators, a first and a second plurality of amplifiers. In one embodiment, each of the modulators is configured to modulate respective input data onto a respective one of a first plurality of signals in a first frequency band and to modulate the respective one of the first plurality of signals onto a respective one of a second plurality of signals in a second frequency band. Each of the first plurality of amplifiers is configured to amplify one of the first plurality of signals to a first predetermined signal strength. Each of the second plurality of amplifiers is configured to amplify one of the second plurality of signals to a second predetermined signal strength. A number of the plurality of modulators is smaller than a sum of a number of the first and second pluralities of amplifiers.

Abstract: A flexible printed circuit board (FPC), a mobile terminal and a fault detection method thereof are disclosed. The FPC includes: a first surface and a second surface which are disposed opposite to each other, a backlight source is disposed on the first surface, and an antenna is disposed on the second surface.

Abstract: A device for holding and charging an electronic cigarette element is disclosed. The device comprises a housing having a planar surface deposited with adhesive configured for coupling to a flat surface, the housing including a rechargeable battery, a first power port in the housing, the first power port conductively coupled to the rechargeable battery and configured for accepting external power for recharging the rechargeable battery, a tubular element coupled to the housing, the tubular element having a cavity that is configured to accept an electronic cigarette element, and a charging terminal located on the housing such that when the electronic cigarette element is inserted in to the tubular element, one end of the electronic cigarette element contacts the charging terminal, wherein when the electronic cigarette element contacts the charging terminal, the rechargeable battery recharges a battery of the electronic cigarette element.

Abstract: An elastic wave device includes a piezoelectric substrate that includes first and second main surfaces which face each other, an interdigital transducer electrode that is provided on the first main surface of the piezoelectric substrate and includes a first electrode layer containing molybdenum as a main component, and a dielectric film that is provided on the piezoelectric substrate and covers the interdigital transducer electrode. The piezoelectric substrate is made of lithium niobate. The dielectric film is made of silicon oxide. The elastic wave device utilizes Rayleigh waves propagating through the piezoelectric substrate. The duty ratio of the interdigital transducer electrode is equal to or more than about 0.55 and less than or equal to about 0.75.

Abstract: A multi-antenna test system is provided. The multi-antenna test system includes a device under test and at least four antenna devices. The at least four antenna devices are spaced apart in a fixed angular relationship with respect to the device under test to create different certain angular relations between each pair of the at least four antenna devices.

Abstract: A radio-frequency module utilizing carrier aggregation includes a switch circuit that includes one input terminal and three or more output terminals and that simultaneously connects the input terminal and each of two or more output terminals selected from the output terminals, signal paths that propagate signals of corresponding frequency bands, band pass filters in the signal paths, and variable matching circuits in the signal paths. The circuit states of the variable matching circuits are changed in accordance with a combination of two or more signal paths simultaneously connected to the input terminal.

Abstract: A mobile terminal includes: a microphone; a short-range communication module; and a controller operably coupled to the microphone and the short-range communication module. The controller is configured to: establish communication with a wearable device via the short-range communication module; enter an audio recognition mode when the communication is established with the wearable device to perform surrounding context awareness in response to audio received via the microphone; and cause the short-range communication module to transmit notification information corresponding to a preset audio signal to the wearable device when the preset audio signal is detected in the audio.