RF front end systems or modules with an acoustic wave resonator (AWR) on an interposer substrate are described. In an example, an integrated system includes an active die, the active die comprising a semiconductor substrate having a plurality of active circuits therein. An interposer is also included, the interposer comprising an acoustic wave resonator (AWR). A seal frame couples the active die to the interposer, the seal frame surrounding the acoustic wave resonator and hermetically sealing the acoustic wave resonator between the active die and the interposer.

A wafer-level chip-scale package includes a polymeric body having a conductive via passing through the polymeric body and a piezoelectric substrate directly bonded to an upper end of the conductive via. The wafer-level chip-scale package further includes a cavity defined between a portion of the polymeric body and the piezoelectric substrate and a metal seal ring disposed in the body and having an upper end bonded to the piezoelectric substrate, the metal seal ring passing only partially through the body.

A wafer-level chip-scale package includes a body, a conductive via passing through the body, a contact bump formed at a lower portion of the body and in electrical connection with a lower end of the conductive via, a piezoelectric substrate directly bonded to an upper end of the conductive via, and a cavity defined between a portion of the body and the piezoelectric substrate.

A micro-electrical-mechanical system (MEMS) guided wave device includes a plurality of electrodes arranged below a piezoelectric layer (e.g., either embedded in a slow wave propagation layer or supported by a suspended portion of the piezoelectric layer) and configured for transduction of a lateral acoustic wave in the piezoelectric layer. The piezoelectric layer permits one or more additions or modifications to be made thereto, such as trimming (thinning) of selective areas, addition of loading materials, sandwiching of piezoelectric layer regions between electrodes to yield capacitive elements or non-linear elastic convolvers, addition of sensing materials, and addition of functional layers providing mixed domain signal processing utility.

An acoustic wave device includes a support substrate with a thickness in a first direction, an intermediate layer on the support substrate, a piezoelectric layer on the intermediate layer, and an interdigital transducer electrode including a first electrode finger on a surface of the piezoelectric layer and extending in a second direction intersecting the first direction, a first busbar electrode connected to the first electrode finger, a second electrode finger opposed to the first electrode finger in a third direction orthogonal or substantially orthogonal to the second direction and extending in the second direction, and a second busbar electrode connected to the second electrode finger. The intermediate layer includes a space in a region in which at least a portion of the intermediate layer overlaps the interdigital transducer electrode in a plan view in the first direction, and an inner wall of the space includes at least one notch.

A wafer-level chip-scale package includes a body, a conductive via passing through the body, a contact bump formed at a lower portion of the body and in electrical connection with a lower end of the conductive via, a piezoelectric substrate directly bonded to an upper end of the conductive via, and a cavity defined between a portion of the body and the piezoelectric substrate.

A micro-electrical-mechanical system (MEMS) guided wave device includes a plurality of electrodes arranged below a piezoelectric layer (e.g., either embedded in a slow wave propagation layer or supported by a suspended portion of the piezoelectric layer) and configured for transduction of a lateral acoustic wave in the piezoelectric layer. The piezoelectric layer permits one or more additions or modifications to be made thereto, such as trimming (thinning) of selective areas, addition of loading materials, sandwiching of piezoelectric layer regions between electrodes to yield capacitive elements or non-linear elastic convolvers, addition of sensing materials, and addition of functional layers providing mixed domain signal processing utility.

An electronic component package includes: a first side surface terminal provided on a first side surface; a first external connection terminal provided on a mounting surface (rear surface); a first recess electrode provided in a first recess and electrically connected with the first external connection terminal; and a first branch wiring disposed on a front surface of a middle plate and including a first end exposed in the first side surface between the first side surface terminal and the first recess electrode. The relation: L11>L12 is satisfied, where L11 is the distance between the first end and the first recess electrode and L12 is the distance between the first end and the first side surface terminal.

A wafer-level chip-scale package includes a body, a conductive via passing through the body, a contact bump formed at a lower portion of the body and in electrical connection with a lower end of the conductive via, a piezoelectric substrate directly bonded to an upper end of the conductive via, and a cavity defined between a portion of the body and the piezoelectric substrate.

A micro-transfer printable transverse bulk acoustic wave filter comprises a piezoelectric filter element having a top side, a bottom side, a left side, and a right side disposed over a sacrificial portion on a source substrate. A top electrode is in contact with the top side and a bottom electrode is in contact with the bottom side. A left acoustic mirror is in contact with the left side and a right acoustic mirror is in contact with the right side. The thickness of the transverse bulk acoustic wave filter is substantially less than its length or width and its length can be greater than its width. The transverse bulk acoustic wave filter can be disposed on, and electrically connected to, a semiconductor substrate comprising an electronic circuit to control the transverse bulk acoustic wave filter and form a composite heterogeneous device that can be micro-transfer printed.