An antenna module includes an antenna substrate, a first semiconductor package, disposed on the antenna substrate, including a first connection member including one or more first redistribution layers, electrically connected to the antenna substrate, and a first semiconductor chip disposed on the first connection member, and a second semiconductor package, disposed on the antenna substrate to be spaced apart from the first semiconductor package, including a second connection member including one or more second redistribution layers, electrically connected to the antenna substrate, and a second semiconductor chip disposed on the second connection member. The first semiconductor chip and the second semiconductor chip are different types of semiconductor chips.

A packaged semiconductor structure includes an interconnect layer and a first microelectronic device on a first major surface of the interconnect layer. The structure also includes a substrate having a cavity, wherein the cavity is defined by a vertical portion and a horizontal portion, wherein the vertical portion surrounds the first device, the horizontal portion is over the first device, and the first device is between the horizontal portion and the first major surface of the interconnect layer such that the first device is in the cavity. The structure further includes a second microelectronic device attached to the horizontal portion of the substrate, and encapsulant on the interconnect layer and surrounding the first device, the substrate, and the second device, such that the substrate is embedded in the encapsulant.

A substrate structure comprises a substrate having a first surface, a first electrode disposed on the first surface, a bump connected to the first electrode, and a protective member that covers the first surface and covers a portion of the bump. The protective member has an opening. The bump includes a portion exposed through the opening. The bump includes a first portion that is connected to the first electrode, and a second portion that is located farther from the first electrode than the first portion and is connected to the first portion. The bump has a constriction at a boundary between the first portion and the second portion. When viewed in a direction perpendicular to the first surface, a maximum diameter of the second portion is smaller than a maximum diameter of the first portion.

Provided are an adapter board and a method for forming the same, a packaging method, and a package structure. One form of a method for forming an adapter board includes: providing a base, including an interconnect region and a capacitor region, the base including a front surface and a rear surface that are opposite each other; etching the front surface of the base, to form a first trench in the base of the interconnect region and form a second trench in the base of the capacitor region; forming a capacitor in the second trench; etching a partial thickness of the base under the first trench, to form a conductive via; forming a via interconnect structure in the conductive via; and thinning the rear surface of the base, to expose the via interconnect structure.

A package structure includes a base material, at least one electronic device, at least one encapsulant and a plurality of dummy pillars. The electronic device is electrically connected to the base material. The encapsulant covers the electronic device. The dummy pillars are embedded in the encapsulant. At least two of the dummy pillars have different heights.

The present disclosure relates to a semiconductor package that may include a substrate. The substrate may have a top surface and a bottom surface. The semiconductor package may include an opening in the substrate. The semiconductor package may include a bridge disposed in the opening. The bridge may have an upper end at the top surface of the substrate and a lower end at the bottom surface of the substrate. The semiconductor package may include a first die on the top surface of the substrate at least partially extending over a first portion of the upper end of the bridge. The semiconductor package may include a second die on the bottom surface of the substrate at least partially extending over the lower end of the bridge. The bridge may couple the first die to the second die.

A module includes: a substrate having a first surface; a first component mounted on the first surface; a first sealing resin disposed to cover the first surface and the first component; a shield film covering at least a side surface of the first sealing resin; a first ground terminal mounted on the first surface; and a protruding portion formed to extend laterally at any position of the first ground terminal in a direction perpendicular to the first surface. The protruding portion is electrically connected to a portion of the shield film that covers the side surface of the first sealing resin.

Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a package substrate including a first conductive pathway electrically coupled to a power source; a first microelectronic component embedded in an insulating material on the surface of the package substrate and including a TSV electrically coupled to the first conductive pathway; a redistribution layer (RDL) on the insulating material including a second conductive pathway electrically coupled to the TSV; and a second microelectronic component on the RDL and electrically coupled to the second conductive pathway, wherein the second conductive pathway electrically couples the TSV, the second microelectronic component, and the first microelectronic component.

Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a package substrate including a first conductive pathway electrically coupled to a power source; a mold material on the package substrate including a first microelectronic component embedded in the mold material, a second microelectronic component embedded in the mold material, and a TMV, between the first and second microelectronic components, the TMV electrically coupled to the first conductive pathway; a redistribution layer (RDL) on the mold material including a second conductive pathway electrically coupled to the TMV; and a third microelectronic component on the RDL and electrically coupled to the second conductive pathway, wherein the second conductive pathway electrically couples the TMV, the first microelectronic component, and the third microelectronic component.

A packaged electronic module for downhole applications, in particular in a petrochemical well or similar environment. The electronic module includes one or more electronic components located on each side of a substrate, where the one or more electronic components are attached to the substrate by means of glue.