A package that includes a first filter comprising a first polymer, a substrate cap, a second filter comprising a second polymer frame, at least one interconnect, an encapsulation layer and a plurality of through encapsulation vias. The substrate cap is coupled to the first polymer frame such that a first void is formed between the substrate cap and the first filter. The second polymer frame is coupled to the substrate cap such that a second void is formed between the substrate cap and the second filter. The at least one interconnect is coupled to the first filter and the second filter. The encapsulation layer encapsulates the first filter, the substrate cap, the second filter, and the at least one interconnect. The plurality of through encapsulation vias coupled to the first filter.

A radio frequency module includes: a module board including a first principal surface and a second principal surface on opposite sides of the module board; an antenna connection terminal; a diplexer connected to the antenna connection terminal and including at least a first inductor which is a chip inductor; a transmission power amplifier; and a first circuit component disposed on a transmission path connecting the diplexer and the transmission power amplifier. The first inductor is disposed on the first principal surface, and one of the transmission power amplifier and the first circuit component is disposed on the second principal surface.

A stacked AW filter package includes a first substrate stacked on a second substrate. The first substrate has a first AW filter circuit on first surface and a metal layer on a second surface. The second substrate has a second AW filter circuit disposed in a cavity between the metal layer of the first substrate and a third surface of the second substrate. The metal layer is coupled to the second AW filter circuit by a metal interconnect formed in a metallization layer on a side surface of the first substrate. The metal layer provides isolation to reduce cross-talk (e.g., electromagnetic interference) within the stacked AW filter package between the first AW filter circuit and the second AW filter circuit. Including the metal layer in the stacked AW filter package improves signal quality of transmitted and received signals filtered in the first and second AW filter circuits.

A radio frequency module includes a module substrate, a first component disposed on a principal surface side of the module substrate, a metal shield wall disposed on an upper surface of the first component and set to ground potential, a resin member covering the principal surface of the module substrate, the upper surface and a side surface of the first component, and a side surface of the metal shield wall, and a metal shield layer set to the ground potential and covering an upper surface of the resin member. An upper end of the metal shield wall is in contact with the metal shield layer. The first component includes a first terminal and a second terminal both connected to the module substrate. When the principal surface is viewed in plan, the metal shield wall is disposed between the first terminal and the second terminal.

A high-frequency module (1) includes a mounting substrate (90), a duplexer (60L) arranged on the mounting substrate (90), a duplexer (60H) arranged on the mounting substrate (90) and having a pass band with a higher frequency than a pass band of the duplexer (60L), and a semiconductor control IC (40) arranged on the mounting substrate (90) and stacked with the duplexer (60L) of the duplexers (60L and 60H).

Multiplexers are disclosed. A multiplexer can include a first filter and a second filter that are coupled to a common node. The second filter can include a first type of acoustic wave resonators (e.g., bulk acoustic wave resonators) and a series acoustic wave resonator of a second type (e.g., a surface acoustic wave resonator) that is coupled between the acoustic wave resonators of the first type and the common node. The first filter can provide a single-ended radio frequency signal. In certain embodiments, the first filter can be a receive filter and the second filter can be a transmit filter.

In the radio frequency module, a first electronic component and a second electronic component are mounted on a principal surface of a mounting board. A resin layer covers an outer perimeter surface of the first electronic component and an outer perimeter surface of the second electronic component. A conductive layer covers the resin layer and overlaps the first electronic component and the second electronic component in a plan view. The conductive layer includes a first conductive portion and a second conductive portion. The first conductive portion is positioned in between the first RF terminal of the first electronic component and the second RF terminal of the second electronic component in the plan view. The second conductive portion is adjacent to the first conductive portion in the plan view. The resistivity of the first conductive portion is higher than the resistivity of the second conductive portion.

A multiplexer includes a transmit filter including first acoustic wave resonators connected to a first path between a common terminal and a transmit terminal, one or some first acoustic wave resonators of the first acoustic wave resonators being provided on a first substrate, and a remaining first acoustic wave resonator being provided on a second substrate, and a receive filter including second acoustic wave resonators connected to a second path between the common terminal and a receive terminal, one or some second acoustic wave resonators of the second acoustic wave resonators being provided on the first substrate and a remaining second acoustic wave resonator being provided on the second substrate, and a resonator closest to the receive terminal in a plan view among the one or some first and second acoustic wave resonators being a second acoustic wave resonator of the one or some second acoustic wave resonators.

A hybrid filter device (1) includes an acoustic wave device (AD) that includes an acoustic wave resonator and a passive device (PD) that includes an inductor element or an inductor element and a capacitance element. At least one of the acoustic wave device (AD) and the passive device (PD) is mounted on a substrate (20) of the hybrid filter device (1) and the acoustic wave device (AD) and the passive device (PD) are electrically connected to each other. The acoustic wave device (AD) overlaps the passive device (PD) when the hybrid filter device (1) is viewed in a direction perpendicular to one main surface (20a) of the substrate (20).

Multiplexers are disclosed. A multiplexer can include a first filter and a second filter that are coupled to a common node. The second filter can include a first type of acoustic wave resonators (e.g., bulk acoustic wave resonators) and a series acoustic wave resonator of a second type (e.g., a surface acoustic wave resonator) that is coupled between the acoustic wave resonators of the first type and the common node. The first filter can provide a single-ended radio frequency signal. In certain embodiments, the first filter can be a receive filter and the second filter can be a transmit filter.