A wafer includes a substrate and conductive bumps on a surface of the substrate. In a plan view from a direction perpendicular to the surface of the substrate, the area density of the conductive bumps is higher in a first area than in a second area around the first area in the surface of the substrate. The first area has effective chip areas arranged therein.

A semiconductor package includes a first die including a signal region and a peripheral region bordering the signal region and having first vias in the peripheral region, a second die stacked on the first die and having second vias at positions corresponding to the first vias in the peripheral region, and first connection terminals between the first die and the second die that are configured to connect the second vias to the first vias, respectively. The peripheral region includes first regions and second regions configured to transmit different signals, which are alternately arranged in a first direction. The first vias are arranged in at least two rows along a second direction intersecting the first direction in each of the first and second regions.

A semiconductor package includes a first die including a signal region and a peripheral region bordering the signal region and having first vias in the peripheral region, a second die stacked on the first die and having second vias at positions corresponding to the first vias in the peripheral region, and first connection terminals between the first die and the second die that are configured to connect the second vias to the first vias, respectively. The peripheral region includes first regions and second regions configured to transmit different signals, which are alternately arranged in a first direction. The first vias are arranged in at least two rows along a second direction intersecting the first direction in each of the first and second regions.

A display device includes a substrate including a conductive pad, a driving chip facing the substrate and including a conductive bump electrically connected to the conductive pad and an inspection bump which is insulated from the conductive pad, and an adhesive member which is between the conductive pad and the driving chip and connects the conductive pad to the driving chip. The adhesive member includes a first adhesive layer including a conductive ball, and a second adhesive layer facing the first adhesive layer, the second adhesive layer including a first area including a color-changing material, and a second area adjacent to the first area and excluding the color-changing material.

A display device includes a substrate including a conductive pad, a driving chip facing the substrate and including a conductive bump electrically connected to the conductive pad and an inspection bump which is insulated from the conductive pad, and an adhesive member which is between the conductive pad and the driving chip and connects the conductive pad to the driving chip. The adhesive member includes a first adhesive layer including a conductive ball, and a second adhesive layer facing the first adhesive layer, the second adhesive layer including a first area including a color-changing material, and a second area adjacent to the first area and excluding the color-changing material.

Methods and apparatus to reduce defects in interconnects between semiconductor dies and package substrates are disclosed. An apparatus includes a substrate and a semiconductor die mounted to the substrate. The apparatus further includes bumps to electrically couple the die to the substrate. Ones of the bumps have corresponding bases. The bases have a shape that is non-circular.

Methods and apparatus to reduce defects in interconnects between semiconductor dies and package substrates are disclosed. An apparatus includes a substrate and a semiconductor die mounted to the substrate. The apparatus further includes bumps to electrically couple the die to the substrate. Ones of the bumps have corresponding bases. The bases have a shape that is non-circular.

Embodiments disclosed herein include dies and die modules. In an embodiment, a die comprises a substrate with a first surface and a second surface opposite from the first surface. In an embodiment the substrate comprises a semiconductor material. In an embodiment, first bumps with a first pitch are on the first surface of the substrate. In an embodiment, a first layer surrounds the first bumps, where the first layer comprises a dielectric material. In an embodiment, second bumps with a second pitch are on the substrate. In an embodiment, the second pitch is greater than the first pitch. In an embodiment, a second layer surrounds the second bumps, where the second layer comprises a dielectric material.

The present invention provides a bump structure of chip disposed on a surface of a chip and comprises a plurality of connecting-bump sets. Each connecting-bump set includes a first connecting hum and a second connecting hump. The first connecting bump and the second connecting bump include corresponding blocking structures. While disposing the chip on a board member, the blocking structure of the first connecting bump and the blocking structure of the second connecting bump block the conductive medium and retard the flow of the conductive medium. The conductive medium is forced to flow between the first connecting bump and the second connecting bump and thus preventing the conductive particles in the conductive medium from leaving the surfaces of the connecting bumps. In addition, there is a flow channel between the first and second connecting bumps. One or more width of the flow channel is between 0.1 μm and 8 μm.

Disclosed is a fan-out wafer level packaging (FOWLP) apparatus includes a semiconductor die having at least one input/output (I/O) connection, a first plurality of package balls having a first package ball layout, a first conductive layer forming a first redistribution layer (RDL) and configured to electrically couple to the first plurality of package balls, and a second conductive layer forming a second RDL and including at least one conductive pillar configured to electrically couple the at least one I/O connection of the semiconductor die to the first conductive layer, wherein the second conductive layer enables the semiconductor die to be electrically coupled to a second plurality of package balls having a second package ball layout without a change in position of the at least one I/O connection of the semiconductor die.