Abstract: An antenna system includes an antenna having a symmetric geometry with respect to first and second antenna feed ports associated therewith, and a hybrid antenna feed circuit coupled to the first and second antenna feed ports of the antenna. The hybrid antenna feed circuit is configured to receive first and second transmit signals and feed the first transmit signal to the first and second antenna feed ports in a balanced feed mode and feed the second transmit signal to the first and second antenna feed ports in an unbalanced mode in a concurrent fashion.

Abstract: Transmission power control methods and devices are described. In a transmission power control method, a triggering distance can be calculated based on one or more communication parameters. Using a proximity sensor, a proximity distance of the communication device with an external object can be calculated. The triggering distance and the proximity distance can be compared, and based on this comparison, a transmission power mode of the communication device can be determined and set.

Abstract: A wireless charging system and a method for tuning the wireless charging system is described. The system can include matching circuitry coupled to a transmission coil and a controller coupled to the matching circuitry. The transmission coil can have a load inductance. The controller can control the matching circuitry to adjust a voltage associated with the capacitance value based on the load inductance to cause the voltage associated with the capacitance value and a current associated with the capacitance value to be in phase.

Abstract: A circuit includes a sensing circuit for a first antenna and a second antenna, the sensing circuit including an adjustable characteristic that is based on a proximity of an object to the first or second antenna used to transmit a transmit signal. An evaluation circuit is coupled to the sensing circuit. The evaluation circuit is configured to monitor the characteristic of the sensing circuit and to determine whether the characteristic fulfills a predetermined criterion.

Abstract: An apparatus of a user equipment (UE) to perform tuning of a tunable antenna may comprise baseband circuitry and radio frequency (RF) circuitry. The baseband circuitry may determine an indication of throughput performance of a tunable antenna for the UE while the tunable antenna is in a first state. The RF circuitry may select a second state for the tunable antenna based on the indication of throughput performance for the tunable antenna. The second state may be selected to improve throughput performance of a data stream for the UE. The RF circuitry may also generate a control signal to transition the tunable antenna to the second state.

Abstract: Embodiments relate to systems, methods, and computer-readable media to enable a wireless communication device. In one embodiment a wireless communication device is configured to radiate a millimeter wave signal through a circular waveguide. A patch antenna is resonated in a Transverse Magnetic 1-0 (TM10) operating mode and electrically couples to an open end of the circular waveguide. The electric field pattern of the patch antenna is such that the millimeter wave signal is launched into the waveguide propagating in a Transverse Electric 1-1 (TE11) mode. In other embodiments, various other configurations may be used as described herein.

Abstract: Technology for impedance matching with a re-configurable coil arrangement of multiple transmitter coils of an electronic device is described. One electronic device includes a wireless transmitter coupled to a power supply and an impedance matching circuit coupled to output terminals of the wireless transmitter. First switching circuitry of the impedance matching circuit, in response to a first control signal, is to switch either a first transmitter coil or a first conductive path in series between the output terminals. Second switching circuitry of the impedance matching circuit, in response to a second control signal, is to switch either a second transmitter coil or a second conductive path in series between the output terminals. The first transmitter and first conductive path have the same impedance and the second transmitter and the second conductive path have the same impedance.

Abstract: Transmission power control methods and devices are described. In a transmission power control method, a triggering distance can be calculated based on one or more communication parameters. Using a proximity sensor, a proximity distance of the communication device with an external object can be calculated. The triggering distance and the proximity distance can be compared, and based on this comparison, a transmission power mode of the communication device can be determined and set.

Abstract: Described herein are architectures, platforms and methods for electrically tuning radiators in a portable device.

Abstract: A wireless device having a first tunable antenna tuned to a first frequency band; and a second tunable antenna tuned to a second frequency band that is different than the first frequency band, wherein the first and second antennas are configured to transmit, receive, or a combination of transmit and receive transmission signals by carrier aggregation at the respective first and second frequency bands simultaneously.

Abstract: An antenna system includes an antenna having a symmetric geometry with respect to first and second antenna feed ports associated therewith, and a hybrid antenna feed circuit coupled to the first and second antenna feed ports of the antenna. The hybrid antenna feed circuit is configured to receive first and second transmit signals and feed the first transmit signal to the first and second antenna feed ports in a balanced feed mode and feed the second transmit signal to the first and second antenna feed ports in an unbalanced mode in a concurrent fashion.

Abstract: A gas detection device includes an enclosure having an interior chamber, an audio loudspeaker in acoustic communication with the interior chamber of the enclosure, and a gas sensor configured to detect a gas within the interior chamber of the enclosure. The device may include a ventilation port configured to permit two-way gaseous communication between the interior chamber and an atmosphere external to the enclosure, where the atmosphere comprises the gas. The audio loudspeaker is configured to generate a pressure within the interior chamber. The pressure causes a portion of the external atmosphere to be drawn into the interior chamber via the ventilation port. The gas sensor may include an emitter and a receiver. The gas detection device can be integrated into a mobile electronic device, such as a smartphone or tablet computer.

Abstract: Devices related to digital MEMS loudspeakers are discussed. Such devices may include an air pressure source, MEMS valves coupled to the air pressure source, and an audio modulator coupled to the MEMS valve to receive an audio signal and to control the MEMS valves via a modulation signal to provide an acoustic output.

Abstract: Described herein are architectures, platforms and methods for implementing an orientation-agnostic mm-wave antenna(s) that includes an integrated second mechanism on a waveguide structure of the mm-wave antenna. The second mechanism, for example, operates on a second signal and is co-running with an operation of the waveguide structure. The second mechanism may include an audio sub-system such as an audio speaker and/or an audio microphone, or other mechanisms such as a sound or a signal detector, signal transmitter/receiver, or the like.

Abstract: An antenna structure having a waveguide configured to operate as at least a portion of an antenna. Also, the waveguide may be configured to operate as a first antenna, and the waveguide has a hole configured to operate as a second antenna.

Abstract: Devices related to digital MEMS loudspeakers are discussed. Such devices may include an air pressure source, MEMS valves coupled to the air pressure source, and an audio modulator coupled to the MEMS valve to receive an audio signal and to control the MEMS valves via a modulation signal to provide an acoustic output.

Abstract: Described herein are architectures, platforms and methods for implementing a closed-loop tuner in a receiver circuitry of a portable device. For example, the closed-loop tuner is based upon a configured or an inherent local oscillator (LO) leakage power in the receiver circuitry of the portable device.

Abstract: Described herein are architectures, platforms and methods for implementing an orientation-agnostic mm-wave antenna(s) that includes an integrated second mechanism on a waveguide structure of the mm-wave antenna. The second mechanism, for example, operates on a second signal and is co-running with an operation of the waveguide structure. The second mechanism may include an audio sub-system such as an audio speaker and/or an audio microphone, or other mechanisms such as a sound or a signal detector, signal transmitter/receiver, or the like.

Abstract: Described herein are architectures, platforms and methods for electrically tuning radiators in a portable device.

Abstract: A circuit includes a sensing circuit for a first antenna and a second antenna, the sensing circuit including an adjustable characteristic that is based on a proximity of an object to the first or second antenna used to transmit a transmit signal. An evaluation circuit is coupled to the sensing circuit. The evaluation circuit is configured to monitor the characteristic of the sensing circuit and to determine whether the characteristic fulfills a predetermined criterion.