Abstract: Embodiments provide a solidly-mounted bulk acoustic wave (BAW) resonator and method of making same. In embodiments, the BAW resonator may include one or more extensions that are acoustical similar to active region components of the BAW resonator. Other embodiments may be described and claimed.

Abstract: Embodiments described herein may provide an acoustic wave device, a method of fabricating an acoustic wave device, and a system incorporating an acoustic wave device. The acoustic wave device may include a transducer disposed on a substrate, with a contact coupled with the transducer. The acoustic wave device may further include a wall layer and cap that define an enclosed opening around the transducer. A via may be disposed through the cap and wall layer over the contact, and a top metal may be disposed in the via. The top metal may form a pillar in the via and a pad on the cap above the via. The pillar may provide an electrical connection between the pad and the contact. In some embodiments, the acoustic wave device may be formed as a wafer-level package on a substrate wafer.

Abstract: Methods and apparatuses for forming a package for high-power semiconductor devices are disclosed herein. A package may include a plurality of distinct thermal spreader layers disposed between a die and a metal carrier. Other embodiments are described and claimed.

Abstract: Embodiments provide a switching device including one or more field-effect transistors (FETs). In embodiments, a body-bias circuit may derive a bias voltage based on a radio frequency signal applied to a switch field-effect transistor and apply the bias voltage to the body terminal of the switch field-effect transistor.

Abstract: Embodiments provide a switching device including one or more field-effect transistors (FETs). In embodiments, a resistive divider comprising a first resistor and a second resistor may be coupled with the FET at a position electrically between a gate terminal of the FET and a body terminal of the FET.

Abstract: Embodiments provide a radio frequency (RF) power amplifier (PA) circuit having a high-power mode and a low-power mode. The RF PA circuit may include a high-power amplifier to provide an amplified RF signal on a first path, and a low-power amplifier to provide an amplified RF signal on a second path. The first path and second path may intersect at a junction node. A switch may be coupled between the low-power amplifier and the junction node to switch the circuit between the high-power mode and the low-power mode. A matching circuit may be coupled on the second path to match an output impedance of the low-power amplifier to a junction impedance of the junction node at a fundamental frequency of the RF signal, and to present an open circuit at a third harmonic of the RF signal. The matching circuit may facilitate high efficiency for the RF PA circuit.

Abstract: Embodiments of the present disclosure describe apparatuses, methods, and systems of an integrated circuit (IC) device. The IC device may include a buffer layer disposed on a substrate, the buffer layer including gallium (Ga) and nitrogen (N) and a barrier layer disposed on the buffer layer, the barrier layer including aluminum (Al) and nitrogen (N). The IC device may further include a gate terminal and a gate dielectric layer disposed between the gate terminal and the barrier layer and/or between the gate terminal and the buffer layer. In various embodiments, the gate dielectric layer may include a fluoride- or chloride-based compound, such as calcium fluoride (CaF2).

Abstract: Methods and apparatuses for forming a device structure including a high-thermal-conductivity substrate are disclosed herein. A method forming such a device structure may comprise forming an active layer over a first substrate in a manner such that a frontside of the active layer faces the first substrate and a backside of the active layer faces away from the first substrate, forming a second substrate over the backside of the active layer, and removing the first substrate to expose the frontside of the active layer. Other embodiments are described and claimed.