A method of manufacturing an electronic-component-embedded substrate includes forming a power-supplying metal layer on a base, forming through electrodes that are to be connected to the power-supplying metal layer on the power-supplying metal layer by an electrolytic plating method, forming a first wiring line by patterning the power-supplying metal layer, forming an interlayer insulating layer such that the interlayer insulating layer covers a portion of the first wiring line, and forming a second wiring line on at least a portion of the first wiring line and a portion of the interlayer insulating layer such that the second wiring line crosses, on the interlayer insulating layer, a portion of the first wiring line.

A photosensitive resin composition comprising the following component (a), component (b1), and component (b2). (a) a polyimide precursor having a structural unit represented by the following formula (1); (b1) one or more compounds selected from the group consisting of a compound represented by the following formula (11) and a compound represented by the following formula (12); (b2) one or more compounds selected from the group consisting of a compound represented by the following formula (21) and a compound represented by the following formula (22). ##STR00001##

A semiconductor package includes a semiconductor chip including a chip pad, a first insulating layer provided on the semiconductor chip and including a first via hole, a first wiring pattern provided on the first insulating layer and connected to the chip pad through the first via hole of the first insulating layer, a second insulating layer provided on the first insulating layer and the first wiring pattern and including a second via hole, and a second wiring pattern provided on the second insulating layer and connected to the first wiring pattern through the second via hole of the second insulating layer, wherein the first insulating layer includes a first upper surface in contact with the second insulating layer and a first lower surface opposite to the first upper surface, and the first upper surface of the first insulating layer has surface roughness greater that the first lower surface of the first insulating layer.

The present disclosure relates to a semiconductor package including a first semiconductor chip having a first surface on which first connection pads are disposed, and a second surface on which second connection pads are disposed, and including through-vias connected to the second connection pads; a connection structure disposed on the first surface and including a first redistribution layer; a first redistribution disposed on the second surface; and a second semiconductor chip disposed on the connection structure. The first connection pads are connected to a signal pattern of the first redistribution layer, and the second connection pads are connected to at least one of a power pattern and a ground pattern of the second redistribution layer.

An integrated fan-out structure on a semiconductor die, method of making the same and method of testing the semiconductor die are disclosed. The semiconductor die includes a bond pad and a hole formed in the bond pad, a passivation layer formed over a portion of the bond pad, and a protective layer formed over the hole in the bond pad.

The present disclosure relates to a semiconductor package including a first semiconductor chip having a first surface on which first connection pads are disposed, and a second surface on which second connection pads are disposed, and including through-vias connected to the second connection pads; a connection structure disposed on the first surface and including a first redistribution layer; a first redistribution disposed on the second surface; and a second semiconductor chip disposed on the connection structure. The first connection pads are connected to a signal pattern of the first redistribution layer, and the second connection pads are connected to at least one of a power pattern and a ground pattern of the second redistribution layer.

A semiconductor package including a semiconductor chip having a chip pad thereon; a first insulating layer; a redistribution line pattern on the first insulating layer; a redistribution via pattern through the first insulating layer to connect the chip pad to the redistribution line pattern; a second insulating layer covering the redistribution line pattern and including a first part having a first thickness and a second part having a second thickness. the second part being inward relative to the first part; a first conductive pillar through the first part and connected to the redistribution line pattern; a second conductive pillar through the second part and connected to the redistribution line pattern; a first connection pad on the first conductive pillar; a second connection pad on the second conductive pillar; a first connection terminal contacting the first connection pad; and a second connection terminal contacting the second connection pad.

A fan-out wafer level package includes a semiconductor die with a redistribution layer on a sidewall of the semiconductor die. A redistribution layer positioned over the die includes an extended portion that extends along the sidewall. The semiconductor die is encapsulated in a molding compound layer. The molding compound layer is positioned between the extended portion of the redistribution layer and the sidewall of the semiconductor die. Solder contacts, for electrically connecting the semiconductor device to an electronic circuit board, are positioned on the redistribution layer. The solder contacts and the sidewall of the redistribution layer can provide electrical contact on two different locations. Accordingly, the package can be used to improve interconnectivity by providing vertical and horizontal connections.

According to one embodiment, a semiconductor storage device includes a first chip and a second chip. The first chip includes a first substrate, a transistor, and a first pad. The second chip includes a second pad, a memory cell array, and a second substrate. The second pad is on the first pad. The second chip is bonded to the first chip. The first chip and the second chip includes, when viewed in a first direction orthogonal to the first substrate, a first region and a second region. The first region includes the memory cell array. The second region surrounds an area around the first region and includes a wall extending from the first substrate to the second substrate. The second substrate includes a first opening passing through the second substrate in the second region.

Provided is a semiconductor device including a substrate, a passivation layer, and a connector. The passivation layer is disposed on the substrate. The connector is embedded in the passivation. An interface of the connector in contact with the passivation layer is uneven, thereby improving the structural stability of the connector. A method of manufacturing the semiconductor is also provided.