A semiconductor package includes a first package substrate, a first semiconductor chip on the first package substrate, a plurality of first chip connection units to connect the first package substrate to the first semiconductor chip, an interposer on the first semiconductor chip, the interposer having a width greater than a width of the first semiconductor chip in a direction parallel to an upper surface of the first package substrate, and an upper filling layer including a center portion and an outer portion, the center portion being between the first semiconductor chip and the interposer, and the outer portion surrounding the center portion and having a thickness greater than a thickness of the center portion in a direction perpendicular to the upper surface of the first package substrate.

An electronic device includes a substrate, a first pad disposed on the substrate and having a first conductive layer and a second conductive layer disposed on the first conductive layer, a first insulating layer disposed on the first conductive layer and having at least one opening exposing a portion of the first conductive layer, and a second pad disposed opposite to the first pad. The second conductive layer is disposed on the first conductive layer in the at least one opening and extends over the at least one opening to be disposed on a portion of the insulating layer. A bottom of the least one opening of the first insulating layer has an arc edge in a top view of the electronic device.

An electronic device includes a substrate, a first pad disposed on the substrate and having a first conductive layer and a second conductive layer disposed on the first conductive layer, a first insulating layer disposed on the first conductive layer and having at least one opening exposing a portion of the first conductive layer, and a second pad disposed opposite to the first pad. The second conductive layer is disposed on the first conductive layer in the at least one opening and extends over the at least one opening to be disposed on a portion of the insulating layer. A bottom of the least one opening of the first insulating layer has an arc edge in a top view of the electronic device.

Techniques are disclosed for facilitating interconnecting semiconductor devices. In one example, a method of interconnecting a first substrate to a second substrate is provided. The method includes forming a first plurality of contacts on the first substrate. The method further includes forming an insulative layer on the first substrate. The method further includes forming a second plurality of contacts on the second substrate. The method further includes joining the first plurality of contacts to the second plurality of contacts to form interconnects between the first substrate and the second substrate. When the first and second substrates are joined, at least a portion of each of the interconnects is surrounded by the insulative layer. Related systems and devices are also provided.

Techniques are disclosed for facilitating interconnecting semiconductor devices. In one example, a method of interconnecting a first substrate to a second substrate is provided. The method includes forming a first plurality of contacts on the first substrate. The method further includes forming an insulative layer on the first substrate. The method further includes forming a second plurality of contacts on the second substrate. The method further includes joining the first plurality of contacts to the second plurality of contacts to form interconnects between the first substrate and the second substrate. When the first and second substrates are joined, at least a portion of each of the interconnects is surrounded by the insulative layer. Related systems and devices are also provided.

A semiconductor chip (6) having flexibility is bonded to a heat radiation material (4) with solder. The semiconductor chip (6) is pressed by a tip of a pressing member (9,11) from an upper side. As a result, convex warpage of the semiconductor chip (6) can be suppressed. Furthermore, since voids can be prevented from remaining in the solder (7), the heat radiation of the semiconductor device can be enhanced.

A semiconductor chip (6) having flexibility is bonded to a heat radiation material (4) with solder. The semiconductor chip (6) is pressed by a tip of a pressing member (9,11) from an upper side. As a result, convex warpage of the semiconductor chip (6) can be suppressed. Furthermore, since voids can be prevented from remaining in the solder (7), the heat radiation of the semiconductor device can be enhanced.

A package device preventing solder overflow provides a space or structure to limit the location of the solder when dispensing the solder. The package device includes a die, an anti-overflow layer, a first pin, a second pin, and a package body. The die has an electrode pad. The anti-overflow layer is disposed on a top surface of the electrode pad and has an opening to expose the top surface of the electrode pad. The first pin is connected to the die. The second pin is soldered to the electrode pad of the die through the opening of the anti-overflow layer. The package body covers the die.

A semiconductor device includes a metal chip mounting member and a semiconductor chip bonded to the chip mounting member through a metal sintered material, wherein the metal sintered material includes a first portion overlapping the semiconductor chip in a plan view, and includes a second portion surrounding the semiconductor chip in the plan view, and wherein a porosity ratio of the first portion is greater than or equal to 1% and less than 15%, and a porosity ratio of the second portion is greater than or equal to 15% and less than or equal to 50%.

A semiconductor device includes a metal chip mounting member and a semiconductor chip bonded to the chip mounting member through a metal sintered material, wherein the metal sintered material includes a first portion overlapping the semiconductor chip in a plan view, and includes a second portion surrounding the semiconductor chip in the plan view, and wherein a porosity ratio of the first portion is greater than or equal to 1% and less than 15%, and a porosity ratio of the second portion is greater than or equal to 15% and less than or equal to 50%.