Abstract: The disclosed device may include a radio frequency (RF) component and a thermal management component establishing a thermal path with the RF component. The device may also include an RF filter electrically that is coupled to the RF component and arranged away from the thermal path. The device may further include a chassis for housing the RF component. The thermal management component and the RF filter may be positioned near an exterior of the chassis. Various other devices, apparatuses, and systems are also disclosed.

Abstract: A radio-frequency device comprising (1) an input resonator configured to receive an input signal, (2) an output resonator configured to provide an output signal, and (3) a plurality of signal paths coupled between the input resonator and the output resonator, wherein each signal path included the plurality of signal paths comprises a bandpass filter that (A) is at least partially composed of a ceramic material and (B) has a bandpass center frequency different from every other signal path included in the plurality of signal paths. Various other apparatuses, systems, and methods are also disclosed.

Abstract: Apparatuses, methods, and systems for a TDD (time division duplex) radio configuration for reduction in transmit and receive path resources are disclosed. One system includes an RF system on a chip (RFSOC) comprising baseband communication circuitry and frequency upconverters for transmit wireless signals and frequency downconverters for received wireless signals, a transmit switch receiving a plurality of transmit signals from the RFSOC through single transmit line, and operative to connect each of the plurality of transmit signals to a one of a plurality of antennas, one at a time, continuously over time, and a receive switch receiving a plurality of receive signals from the plurality of antennas, and operative to connect each of the plurality of receive signals to the RFSOC on a single receive line, one at a time, continuously over time, wherein each antenna of the plurality of antennas is either transmitting or receiving.

Abstract: A diversity antenna exhibits a diversity gain pattern. The diversity gain pattern is provided as a combination of the gain patterns of first and second antennas. The first antenna has a ground plane that is disposed orthogonally with respect to the ground plane of the second antenna. In one arrangement of the invention, the first and second antennas are printed inverted F antenna structures, and may be disposed on a common circuit board substrate. The invention includes a device that incorporates the diversity gain antenna and may be disposed in a wireless local area network device. A diversity switch and a transmit and receive switch are provided to couple the diversity antenna to a baseband transceiver. The device may optionally include a processor to couple with the baseband transceiver, and may optionally couple with a host processor disposed in a host device to operate with the device having a diversity antenna in accordance with the invention.