Electronic module (100), which comprises a first substrate (102), a first dielectric layer (104) on the first substrate (102), at least one electronic chip (106), which is mounted with a first main surface (108) directly or indirectly on partial region of the first dielectric layer (104), a second substrate (110) over a second main surface (114) of the at least one electronic chip (106), and an electrical contacting (116) for the electric contact of the at least one electronic chip (106) through the first dielectric layer (104), wherein the first adhesion layer (104) on the first substrate (102) extends over an area, which exceeds the first main surface (108).

An integrated circuit product includes a redistribution layer, an integrated circuit die disposed above the redistribution layer, a row of discrete devices disposed laterally with respect to the integrated circuit die, and encapsulant mechanically coupling the redistribution layer, integrated circuit die, and the row of discrete devices. In at least one embodiment, the row of discrete devices is a row of decoupling capacitors disposed proximate to the integrated circuit die and coupled to the integrated circuit die and a power distribution network. In at least one embodiment, a second integrated circuit die is disposed above the redistribution layer and disposed laterally with respect to the integrated circuit die and the row of discrete devices. The second integrated circuit die is mechanically coupled to the redistribution layer, integrated circuit die, and the row of discrete devices and is partially surrounded by the row of discrete devices.

A device is provided. The device may include one or more of a package base, a substrate, a die secured to the substrate, a plurality of bond connections, and a package lid. The package base includes a plurality of package leads and a package base body. The package base body includes an open cavity disposed through the entire package base body, a plurality of package bond pads, disposed within a periphery of the open cavity, and a mounting shelf, disposed within the open cavity. The substrate is secured to the mounting shelf, and includes a plurality of substrate bond pads. The plurality of bond connections are configured to provide electrical connections between one or more of the die, the substrate bond pads, and the package bond pads. The package lid is secured over the open cavity to the package base body.

A device is provided. The device may include one or more of a package base, a substrate, a die secured to the substrate, a plurality of bond connections, and a package lid. The package base includes a plurality of package leads and a package base body. The package base body includes an open cavity disposed through the entire package base body, a plurality of package bond pads, disposed within a periphery of the open cavity, and a mounting shelf, disposed within the open cavity. The substrate is secured to the mounting shelf, and includes a plurality of substrate bond pads. The plurality of bond connections are configured to provide electrical connections between one or more of the die, the substrate bond pads, and the package bond pads. The package lid is secured over the open cavity to the package base body.

An electronic component package includes: a lower package, including a frame including a through-hole and a through-wiring, a first electronic component disposed in the through-hole of the frame, a redistribution layer disposed below the first electronic component and the frame and electrically connected to the first electronic component, and an encapsulant filling the through-hole to encapsulate the first electronic component; an upper package disposed on the lower package and including a second electronic component; and a passive element disposed between the upper package and the lower package.

An electronic component package includes: a lower package, including a frame including a through-hole and a through-wiring, a first electronic component disposed in the through-hole of the frame, a redistribution layer disposed below the first electronic component and the frame and electrically connected to the first electronic component, and an encapsulant filling the through-hole to encapsulate the first electronic component; an upper package disposed on the lower package and including a second electronic component; and a passive element disposed between the upper package and the lower package.

An electronics package includes a thermal lid over a flip chip component such that the thermal lid is in contact with a surface of a flip chip component and one or more thermal vias in a substrate on which the flip chip component is mounted. The thermal lid dissipates heat from the flip chip component by way of the thermal vias to improve the thermal performance of the electronics package.

An electronics package includes a thermal lid over a flip chip component such that the thermal lid is in contact with a surface of a flip chip component and one or more thermal vias in a substrate on which the flip chip component is mounted. The thermal lid dissipates heat from the flip chip component by way of the thermal vias to improve the thermal performance of the electronics package.

Semiconductor die assemblies and methods of forming the same are described herein. As an example, a semiconductor die assembly may include a thermally conductive casing, a first face of a logic die coupled to the thermally conductive casing to form a thermal path that transfers heat away from the logic die to the thermally conductive casing, a substrate coupled to a second face of the logic die, and a die embedded at least partially in a cavity of the substrate.

Semiconductor die assemblies and methods of forming the same are described herein. As an example, a semiconductor die assembly may include a thermally conductive casing, a first face of a logic die coupled to the thermally conductive casing to form a thermal path that transfers heat away from the logic die to the thermally conductive casing, a substrate coupled to a second face of the logic die, and a die embedded at least partially in a cavity of the substrate.