A filter package and method of manufacturing thereof is disclosed. The filter device package includes a first dielectric layer having an acoustic wave filter device attached thereto, the acoustic wave filter device comprising an active area and I/O pads. The filter device package also includes an adhesive positioned between the first dielectric layer and the acoustic wave filter device to secure the layer to the device, vias formed through the first dielectric layer and the adhesive to the I/O pads of the acoustic wave filter device, and metal interconnects formed in the vias and mechanically and electrically coupled to the I/O pads of the acoustic wave filter device to form electrical interconnections thereto, wherein an air cavity is formed in the adhesive between the acoustic wave filter device and the first dielectric layer, in a location adjacent the active area of the acoustic wave filter device.

An electronic component may include a substrate having a functional unit formed on a main surface of the substrate and a first resin layer formed on the main surface, the first resin layer having a first surface facing the main surface and a second surface opposed to the first surface, the first resin layer defining a cavity on the first surface enclosing the functional unit, the first resin layer defining a recess on the second surface, and a solder layer being formed in the recess so as not to exceed the second surface in a thickness direction. The functional unit may include a surface acoustic wave (SAW) element or a film bulk acoustic resonator (FBAR) having a mechanically movable portion. The substrate may be formed of dielectric material.

An assembly including an electrical connection substrate formed of material having a Young's modulus of less than about 10 MPa, an acoustic device die having opposite end portions mounted on and electrically connected to the electrical connection substrate and a mold compound layer encapsulating the acoustic device die and interfacing with the substrate.

A surface acoustic wave device includes a piezoelectric substrate, a dielectric film, IDT electrodes, and a resin member. The surface acoustic wave device includes a resin contact region where the piezoelectric substrate and the resin member are in direct contact with each other. The resin contact region has a shape surrounding the IDT electrodes. Because the resin member exhibits a strong adhesion force with respect to the piezoelectric substrate, peeling-off between the piezoelectric substrate and the resin member is significantly reduced or prevented, and an airtight condition is maintained in the interior of the surface acoustic wave device.

An elastic wave device includes an interdigital transducer electrode and a wiring electrode made of metal and provided on a first main surface of a piezoelectric substrate. Via hole electrodes penetrate the piezoelectric substrate. Each via hole electrode is connected to an external connection terminal. A cover member defines a hollow space in which the interdigital transducer electrode is sealed, together with the first main surface of the piezoelectric substrate. A heat dissipating member is provided on the wiring electrode to extend from the wiring electrode toward the cover member and penetrate the cover member.

A ceramic electronic component includes an electronic component body and portions of first and second metal terminals defined by lead wires covered with an outer resin material. The first metal terminal includes, connected in order, a first terminal joint portion, a first extension portion extending in a direction toward a mounting surface, and a first mount portion extending toward a side opposite to the electronic component body. The second metal terminal includes, connected in order, a second terminal joint portion, a second extension portion extending in the direction toward the mounting surface, and a second mount portion extending toward a side opposite to the electronic component body. The first and second mount portions respectively include first and second protruding bending portions protruding toward the mounting surface. The outer resin material includes a protruding portion protruding toward the mounting surface.

A module includes a substrate, a first component, and a sealing resin. The substrate is provided with a first surface. The first component is mounted on the first surface. The first component is sealed with the sealing resin at least from a lateral side. The first component includes a projecting portion. The projecting portion projects from the sealing resin on a side opposite to a side of the substrate.

A semiconductor package comprises a leadframe having a die attach pad and one or more leads and a semiconductor die electrically connected to the die attach pad. A BAW device is attached to the semiconductor die. A mold compound surrounds the first semiconductor die and covers portions of the leadframe and a first portion of a top surface of the semiconductor die. The mold compound has a cavity area. The mold compound does not cover the BAW device or a second portion of the top surface of the semiconductor die in the cavity area. A glob top material is disposed within the cavity area. The glob top material covers the BAW device and the second portion of the top of the semiconductor die.

Acoustic resonator devices and filters are disclosed. An acoustic resonator chip includes a piezoelectric plate attached to a substrate, a portion of the piezoelectric plate forming a diaphragm spanning a cavity in the substrate. A first conductor pattern formed on a surface of the piezoelectric plate includes an interdigital transducer with interleaved fingers on the diaphragm, and a first plurality of contact pads. A second conductor pattern is formed on a surface of an interposer, the second conductor pattern including a second plurality of contact pads. Each pad of the first plurality of contact pads is directly bonded to a respective pad of the second plurality of contact pads. A seal is formed between a perimeter of the acoustic resonator chip and a perimeter of the interposer.

Acoustic resonator devices and filters are disclosed. An acoustic resonator chip includes a piezoelectric plate attached to a substrate, a portion of the piezoelectric plate forming a diaphragm spanning a cavity in the substrate. A first conductor pattern formed on a surface of the piezoelectric plate includes interleaved fingers of an interdigital transducer on the diaphragm and a first plurality of contact pads. A second conductor pattern is formed on a surface of an interposer, the second conductor pattern including a second plurality of contact pads. Each pad of the first plurality of contact pads is directly connected to a respective pad of the second plurality of contact pads. A seal is formed between a perimeter of the piezoelectric plate and a perimeter of the interposer.