An interconnect structure comprises a first dielectric layer, a first metal layer, a second dielectric layer, a metal via, and a second metal layer. The first dielectric layer is over a substrate. The first metal layer is over the first dielectric layer. The first metal layer comprises a first portion and a second portion spaced apart from the first portion. The second dielectric layer is over the first metal layer. The metal via has an upper portion in the second dielectric layer, a middle portion between the first and second portions of the first metal layer, and a lower portion in the first dielectric layer. The second metal layer is over the metal via. From a top view the second metal layer comprises a metal line having longitudinal sides respectively set back from opposite sides of the first portion of the first metal layer.

A package includes a substrate having a conductive layer, and the conductive layer comprises an exposed portion. A die stack is disposed over the substrate and electrically connected to the conductive layer. A high thermal conductivity material is disposed over the substrate and contacting the exposed portion of the conductive layer. The package further includes a contour ring over and contacting the high thermal conductivity material.

A multilayer board includes a base including insulating layers stacked in a stacking direction, and a mounting surface at an end of the base in a first direction along the stacking direction, an electronic component inside the base, and a first heat dissipator extending through at least one of the insulating layers from a surface of the electronic component located at an end of the electronic component in the first direction to the mounting surface. When a section of the first heat dissipator is defined as a first section, and a section of the first heat dissipator located farther in a second direction along the layer stacking direction than the first section is defined as a second section, there is a combination of a first section and a second section in which the second section extends farther outward than the first section when viewed from the layer stacking direction.

Embodiments herein generally relate to the field of package assembly to facilitate thermal conductivity. A package may have a hanging die, and attach to a printed circuit board (PCB). The package may have an active side plane and an inactive side plane opposite the first active side plane. The package may also have a ball grid array (BGA) matrix having a height determined by a distance of a furthest point of the BGA matrix from the active side plane of the package. The package may have a hanging die attached to the active side plane of the package, the hanging die having a z-height greater than the BGA matrix height. When package is attached to the PCB, the hanging die may fit into an area on the PCB that is recessed or has been cut away, and a thermal conductive material may connect the hanging die and the PCB.

An interconnect structure includes a first dielectric layer, a first metal layer, a metal via, and a second metal layer. The first dielectric layer is over a substrate. The first metal layer is over the first dielectric layer and has a first segment and a second segment separated from the first segment. The metal via includes a first portion between the first and second segments of the first metal layer, and a second portion above the first metal layer. The second metal layer is over the metal via. From a top view, the second metal layer includes a metal line extending across the first and second segments of the first metal layer. From a cross-sectional view, the first portion of the metal via has opposite sidewalls respectively offset from opposite sidewalls of the second portion of the metal via.

A semiconductor package includes a first semiconductor chip, a connection die adjacent a side surface of the first semiconductor chip, and a second semiconductor chip on the first semiconductor chip and the connection die. The first semiconductor chip includes a plurality of first through electrodes. The connection die includes a plurality of second through electrodes. The first through electrodes and the second through electrodes are below and vertically overlap the second semiconductor chip.

A package includes a substrate having a conductive layer, and the conductive layer comprises an exposed portion. A die stack is disposed over the substrate and electrically connected to the conductive layer. A high thermal conductivity material is disposed over the substrate and contacting the exposed portion of the conductive layer. The package further includes a contour ring over and contacting the high thermal conductivity material.

A package includes a bottom substrate and a bottom die over and bonded to the bottom substrate. A metal-particle-containing compound material is overlying a top surface of the bottom die, wherein the metal-particle-containing compound material comprises metal particles. A molding material molds at least a lower part of the bottom die therein, wherein the molding material is overlying the bottom substrate.

A semiconductor package includes a die, a passivation layer, a plurality of first electrical conductive vias, a plurality of second electrical conductive vias, a plurality of thermal conductive vias and a connecting pattern. The die includes a plurality of first pads and a plurality of second pads. The passivation layer is disposed on the die. The first electrical conductive vias and the second electrical conductive vias extend through the passivation layer and contact the first pads and the second pads respectively. The thermal conductive vias are disposed on the passivation layer. Each of the thermal conductive vias is spaced apart from the first and second electrical conductive vias. The connecting pattern is disposed on the passivation layer and connects the first electrical conductive vias and the thermal conductive vias. The thermal conductive vias are connected to the first pads through the connecting pattern and the first electrical conductive vias.

A package includes a substrate having a conductive layer, and the conductive layer comprises an exposed portion. A die stack is disposed over the substrate and electrically connected to the conductive layer. A high thermal conductivity material is disposed over the substrate and contacting the exposed portion of the conductive layer. The package further includes a contour ring over and contacting the high thermal conductivity material.