A semiconductor package including a molded power delivery module arranged between a package substrate and a semiconductor chip and including a plurality of input conductive structures and a plurality of reference conductive structures, wherein the input conductive structures alternate between the plurality of reference conductive structures, wherein the input conductive structure is electrically coupled with a chip input voltage terminal and a package input voltage terminal, wherein each of the plurality of reference conductive structures are electrically coupled with a semiconductor chip reference terminal and a package reference terminal.

The present application provides a semiconductor package with air gaps for reducing capacitive coupling between conductive features and a method for manufacturing the semiconductor package. The semiconductor package includes a first semiconductor structure and a second semiconductor structure bonded with the first semiconductor structure. The first semiconductor structure has a first bonding surface. The second semiconductor structure has a second bonding surface partially in contact with the first bonding surface. A portion of the first bonding surface is separated from a portion of the second bonding surface, a space between the portions of the first and second bonding surfaces is sealed and forms an air gap in the semiconductor package.

A semiconductor package structure includes a first package, a second package over the first package, a plurality of connectors between the first package and the second package and a plurality of baffle structures between the first package and the second package. The second package includes a bonding region and a periphery region surrounding the bonding region. The connectors are disposed in the bonding region to provide electrical connections between the first package and the second package. The baffle structures are disposed in the periphery region and are separated from each other.

The embodiments described provide elongated bonded structures near edges of packaged structures free of solder wetting on sides of copper posts substantially facing the center of the packaged structures. Solder wetting occurs on other sides of copper posts of these bonded structures. The elongated bonded structures are arranged in different arrangements and reduce the chance of shorting between neighboring bonded structures. In addition, the elongated bonded structures improve the reliability performance.

A semiconductor package may include: a first semiconductor chip; a second semiconductor chip disposed over the first semiconductor chip; and a bump structure interposed between the first semiconductor chip and the second semiconductor chip to connect the first semiconductor chip and the second semiconductor chip, wherein the bump structure includes a core portion and a shell portion, the shell portion surrounding all side ails of the core portion, and wherein the shell portion has a higher melting point than the core portion.

Provided is a ceramic laminated substrate which is formed on an electronic component to be mounted and is less likely to cause mounting defects even if there is irregularity in the height of solders. The ceramic laminated substrate includes: a ceramic laminate on which ceramic layers are laminated; via conductors; terminal electrodes; and a land electrode. The land electrode has a first land electrode and a second land electrode that are used to join different terminal electrodes of a single electronic component. The area of the first land electrode is smaller than the area of the second land electrode, and the first land electrode has a bump electrode and a plating layer, the second land electrode has a membrane electrode and plating layers, and the height of the first land electrode is formed higher than the height of the second land electrode.

A semiconductor package includes a first semiconductor chip having a plurality of first through-electrodes and a plurality of first upper connection pads respectively connected to the plurality of first through-electrodes, where the plurality of first upper connection pads are on an upper surface of the first semiconductor chip, a second semiconductor chip on the first semiconductor chip and having a plurality of second lower connection pads on a lower surface of the second semiconductor chip, and a plurality of connection members, each including a pillar and a conductive bump, the plurality of connection members electrically connecting respective ones of the first upper connection pads and the second lower connection pads to each other. Conductive bumps of adjacent connection members, among the plurality of connection members, are alternately disposed at different levels with respect to the upper surface of the first semiconductor chip.

A semiconductor chip includes a mounting surface having a plurality of first conductive contacts and a second conductive contact, wherein each of the first contacts in the plurality is arranged in a regularly spaced apart array such that centroids of immediately adjacent ones of the first contacts are separated from one another in a first direction by a first distance, each of the first contacts in the plurality have an identical first lateral extent, and the second conductive contact is arranged between two of the first conductive contacts in the first direction such that first and second distances between the at least one second conductive contact and the two of the first conductive contacts are each less than the first distance.

Embodiments include a package substrate and semiconductor packages. A package substrate includes a first cavity in a top surface, first conductive pads on a first surface of the first cavity, a second cavity in a bottom surface, second conductive pads on a second surface of the second cavity, where the first surface is above the second surface, and a third cavity in the first and second cavities, where the third cavity vertically extends from the top surface to the bottom surface. The third cavity overlaps a first portion of the first cavity and a second portion of the second cavity. The package substrate may include conductive lines coupled to the first and second conductive pads, a first die in the first cavity, a second die in the second cavity, and interconnects in the third cavity that directly couple first die to the second die.

A semiconductor chip includes a mounting surface having a plurality of first conductive contacts and at least one second conductive contact. Each of the first contacts is arranged in a regularly spaced apart array such that centroids of immediately adjacent first contacts are separated from one another in a first direction by a first distance. Each of the first contacts have an identical first lateral extent. The second conductive contact is at least partially within an area which has the first lateral extent and is separated from an immediately first contact by the first distance. Either the second conductive contact has a second lateral extent that is less than the first lateral extent; or a centroid of the second conductive contact is separated in the first direction from the centroid of one of the first contacts by a second distance that is different from the first distance.