An electronics package includes an insulating substrate, an electrical component having a back surface coupled to a first surface of the insulating substrate, and an insulating structure surrounding at least a portion of a perimeter of the electrical component. A first wiring layer extends from the first surface of the insulating substrate and over a sloped side surface of the insulating structure to electrically couple with at least one contact pad on an active surface of the electrical component. A second wiring layer is formed on a second surface of the insulating substrate and extends through at least one via therein to electrically couple with the first wiring layer.

A flip chip bonding method includes obtaining a die including a first substrate and an adhesive layer on the first substrate; bonding the die to a second substrate different from the first substrate; and curing the adhesive layer. The curing the adhesive layer includes heating the second substrate to melt the adhesive layer, and providing the adhesive layer and the second substrate with air having pressure greater than atmospheric pressure.

A bonding member (10) includes surface-processed silver surfaces (11a, 11b).

A wafer to wafer bonding method includes performing a plasma process on a bonding surface of a first wafer, pressurizing the first wafer after performing the plasma process on the bonding surface of the first wafer, and bonding the first wafer to a second wafer. The plasma process has different plasma densities along a circumferential direction about a center of the first wafer. A middle portion of the first wafer protrudes after pressurizing the first wafer. The first wafer is bonded to the second wafer by gradually joining the first wafer to the second wafer from the middle portion of the first wafer to a peripheral region of the first wafer.

An electronics package includes an insulating substrate, an electrical component having a back surface coupled to a first surface of the insulating substrate, and an insulating structure surrounding at least a portion of a perimeter of the electrical component. A first wiring layer extends from the first surface of the insulating substrate and over a sloped side surface of the insulating structure to electrically couple with at least one contact pad on an active surface of the electrical component. A second wiring layer is formed on a second surface of the insulating substrate and extends through at least one via therein to electrically couple with the first wiring layer.

This document discloses techniques, apparatuses, and systems for a semiconductor device with a porous air vent. The semiconductor device includes a semiconductor die mounted to a substrate at one or more contact pads. Underfill material is disposed between the semiconductor die and the substrate. The substrate includes a porous portion composed of a porous material. The porous material is such that air, but not the underfill material, may pass from an area between the semiconductor die and the substrate to an area below the substrate. As a result, air may pass through the porous portion during the underfill process and the underfill material may be retained. Thus, voids and back contamination may be limited to assemble a reliable semiconductor device

A stack type power module includes: a power semiconductor having a gate and an emitter, each of which has a pad shape, adjacent to each other on one surface of the power semiconductor, and a collector having a pad shape on another surface of the power semiconductor; an upper substrate layer stacked on an upper portion of the power semiconductor, and electrically connected to a metal layer that has a lower surface with which the collector is in contact; and a lower substrate layer stacked on a lower portion of the power semiconductor, and electrically connected to the metal layer that has an upper surface with which each of the gate and the emitter is in contact.

The present invention provides an electrically conductive bonding material having a high bonding strength and a high thermal conductivity, and capable of forming a bonding layer providing a very low porosity under low pressurization. The present invention relates to an electrically conductive bonding material which bonds a chip and an adherend under pressure, the electrically conductive bonding material containing silver particles; silver compound particles; and a dispersant, wherein the silver particles and the silver compound particles are present in a weight ratio of 30:70 to 70:30, and the electrically conductive bonding material provide a porosity of 15% or less after the chip and the adherend are subject to pressurizing-bond under an air atmosphere of pressure of 10 MPa and 280 C. for 5 minutes.

Electronic assemblies such as system on a wafer assemblies are disclosed. The assembly can include an electronic component that has a first side, a heat removing structure that is coupled to the first side of the electronic component, and a thermal interface structure that includes a thermal interface layer and an adhesion layer. The electronic component can be a system on a wafer (SoW). The thermal interface layer is positioned between the first side of the electronic component and the heat dissipation structure. The adhesion layer is positioned between the heat removing structure and the thermal interface layer. With the thermal interface structure, the electronic component and the heat removing structure can be attached together with relatively lower pressure.

An electronics package includes an insulating substrate, an electrical component having a back surface coupled to a first surface of the insulating substrate, and an insulating structure surrounding at least a portion of a perimeter of the electrical component. A first wiring layer extends from the first surface of the insulating substrate and over a sloped side surface of the insulating structure to electrically couple with at least one contact pad on an active surface of the electrical component. A second wiring layer is formed on a second surface of the insulating substrate and extends through at least one via therein to electrically couple with the first wiring layer.