An embodiment is a method including forming a first passive device in a first wafer, forming a first dielectric layer over a first side of the first wafer, forming a first plurality of bond pads in the first dielectric layer, planarizing the first dielectric layer and the first plurality of bond pads to level top surfaces of the first dielectric layer and the first plurality of bond pads with each other, hybrid bonding a first device die to the first dielectric layer and at least some of the first plurality of bond pads, and encapsulating the first device die in a first encapsulant.

A method of manufacturing a semiconductor device structure includes forming a bond or joint between a first device and a second device. The first device comprises an integrated passive device (IPD) and a first contact pad disposed over the IPD. The second device comprises a second contact pad. The first contact pad has a first surface with first lateral extents. The second contact pad has a second surface with second lateral extents. The width of the second lateral extents is less than the width of the first lateral extents. The joint structure includes the first contact pad, the second contact pad, and a solder layer interposed therebetween. The solder layer has tapered sidewalls extending in a direction away from the first surface of the first contact pad to the second surface of the second contact pad. At least one of the first surface or the second surface is substantially planar.

A method of manufacturing a semiconductor device structure includes forming a bond or joint between a first device and a second device. The first device comprises an integrated passive device (IPD) and a first contact pad disposed over the IPD. The second device comprises a second contact pad. The first contact pad has a first surface with first lateral extents. The second contact pad has a second surface with second lateral extents. The width of the second lateral extents is less than the width of the first lateral extents. The joint structure includes the first contact pad, the second contact pad, and a solder layer interposed therebetween. The solder layer has tapered sidewalls extending in a direction away from the first surface of the first contact pad to the second surface of the second contact pad. At least one of the first surface or the second surface is substantially planar.

A semiconductor device includes a support member, a first switching element, a second switching element, a first passive element, a second passive element, and an electrical conductor. The support member includes a plurality of wiring parts, and the plurality of wiring parts include a first wiring section and a second wiring section spaced apart from each other in a first direction perpendicular to the thickness direction of the support member. The first switching element is electrically connected to the first wiring section. The second switching element is electrically connected to the first switching element and the second wiring section. The first passive element has a first electrode and a second electrode, and the first electrode is bonded to the first wiring section. The second passive element has a third electrode and a fourth electrode, and the fourth electrode is bonded to the second wiring section. The electrical conductor connects the second electrode and the third electrode to each other. At least one of the first passive element and the second passive element is a capacitor.

An electronic component package, comprising a package part comprising a plurality of contact pads on a first surface of the package part; a passive component having a first surface including contact pads bonded to a first set of contact pads in the plurality of contact pads and a second surface spaced apart from the first surface; a plurality of connecting structures for external electrical connection of the electronic component package; and an RDL stack interconnecting a second set of contact pads in the plurality of contact pads with the connecting structures for external electrical connection, the RDL stack comprising: a first conductor layer; a second conductor layer; and a dielectric layer arranged there between and comprising vias for conductively connecting the first conductor layer and the second conductor layer.

A component carrier has a stack including at least one electrically conductive layer structure and/or at least one electrically insulating layer structure. A component is embedded in the stack. The component includes a redistribution structure with at least one vertically protruding electrically conductive pad, and an electrically conductive material on at least part of said at least one pad. A method of manufacturing a component carrier is also disclosed.

Various embodiments of an integrated circuit package and a method of forming such package are disclosed. The package includes a substrate having a glass core layer, where the glass core layer includes a first major surface, a second major surface, and a cavity disposed between the first major surface and the second major surface of the glass core layer. The package also includes a die disposed in the cavity of the glass core layer, an encapsulant disposed in the cavity between the die and a sidewall of the cavity, a first patterned conductive layer disposed adjacent the first major surface of the glass core layer, and a second patterned conductive layer disposed adjacent the second major surface of the glass core layer. The die is electrically connected to at least one of the first and second patterned conductive layers.

The present disclosure relates to a radio frequency (RF) device that includes a mold device die and a multilayer redistribution structure underneath the mold device die. The mold device die includes a device region with a back-end-of-line (BEOL) portion and a front-end-of-line (FEOL) portion over the BEOL portion, and a first mold compound. The FEOL portion includes an active layer, a contact layer, and isolation sections. Herein, the active layer and the isolation sections reside over the contact layer, and the active layer is surrounded by the isolation sections. The first mold compound resides over the active layer without silicon crystal, which has no germanium content, in between. The multilayer redistribution structure includes redistribution interconnections and a number of bump structures that are at bottom of the multilayer redistribution structure and electrically coupled to the mold device die via the redistribution interconnections.

Certain aspects of the present disclosure generally relate to an integrated circuit assembly. One example integrated circuit assembly generally includes a first reconstituted assembly, a second reconstituted assembly, and a third reconstituted assembly. The first reconstituted assembly comprises at least one passive component and a first bonding layer. The second reconstituted assembly is disposed above the first reconstituted assembly and comprises one or more first semiconductor dies, a second bonding layer bonded to the first bonding layer of the first reconstituted assembly, and a third bonding layer. The third reconstituted assembly is disposed above the second reconstituted assembly and comprises one or more second semiconductor dies and a fourth bonding layer bonded to the third bonding layer of the second reconstituted assembly.

A semiconductor structure and a manufacturing method thereof are provided. The semiconductor structure includes a substrate, a semiconductor device, an interconnect structure, a capacitor, and a plurality of pads. The semiconductor device is disposed at the substrate. The interconnect structure is disposed on the substrate and electrically connected to the semiconductor device. The capacitor is disposed on the interconnect structure and electrically connected to the interconnect structure. The capacitor includes a first electrode, a second electrode covering a top surface and a sidewall of the first electrode, and an insulating layer disposed between the first electrode and the second electrode. The plurality of pads are disposed on the interconnect structure and electrically connected to the interconnect structure, wherein at least one of the plurality of pads is electrically connected to the capacitor.