A combined semiconductor device package includes a first semiconductor device package having a first semiconductor chip housed within a first enclosure, and a first substrate coupled to the first enclosure. The first substrate includes first solder balls and second solder balls, each in electrical communication with the first semiconductor chip. The first semiconductor device further includes conductive pads directly coupled to the first substrate. The conductive pads are in electrical communication with the first and second solder balls. The combined semiconductor device package further includes a second semiconductor device package having a second semiconductor chip housed within a second enclosure, and third solder balls in electrical communication with the second semiconductor chip, and coupled to the conductive pads of the first semiconductor device package. The combined semiconductor device package may be used for packaging a memory device that allows for increased memory package without increasing the package form factor.

A semiconductor package includes a first semiconductor chip including a first semiconductor substrate and a first chip pad on a first bottom surface of the first semiconductor substrate, a second semiconductor chip including a second semiconductor substrate and a second chip pad on a second top surface of the second semiconductor substrate, a lower redistribution structure provided under the first semiconductor chip and the second semiconductor chip, the lower redistribution structure including a lower redistribution pattern, the lower redistribution pattern including a first lower redistribution via pattern contacting the first chip pad, a molding layer covering the first semiconductor chip and the second semiconductor chip, an upper redistribution structure including an upper redistribution pattern, the upper redistribution pattern including a first upper redistribution via pattern connected to the second chip pad, and a conductive connection structure electrically connecting the lower redistribution pattern to the upper redistribution pattern.

A semiconductor device includes a power module, a circuit package, and a joint portion joining the power module and the circuit package. The circuit package includes a semiconductor element, a wiring layer electrically connected with the semiconductor element, a heat conductive member, and a second mold resin portion sealing the semiconductor element and the heat conductive member. The wiring layer includes a connecting portion connected with the heat conductive member. One of the connecting portion or the heat conductive member is joined with a signal wire in the power module via the joint portion. The heat conductive member penetrates the second mold resin portion in a thickness direction of the semiconductor element. The heat conductive member and the connecting portion are arranged in a straight line in the thickness direction of the semiconductor element.

A multi-mode transmission line includes a first and second conductive layers, first and second waveguide walls, a strip line, and a blind conductor. The second conductive layer that is formed over the first conductive layer. The first waveguide wall is elongated in a first direction and is in contact with the first conductive layer and the second conductive layer in a vertical direction. The second waveguide wall is elongated in the first direction parallel to the first waveguide wall and is in contact with the first conductive layer and the second conductive layer in the vertical direction. The strip line is formed between the first and second conductive layers and between the first and second waveguide walls. The blind conductor is connected to one of the first conductive layer, the second conductive layer, the first waveguide wall, or the second waveguide wall.

A method includes forming a set of through-vias in a substrate, the set of through-vias partially penetrating a thickness of the substrate. First connectors are formed over the set of through-vias on a first side of the substrate. The substrate is singulated to form dies. The first side of the dies are attached to a carrier. The dies are thinned from the second side to expose the set of through-vias. Second connectors are formed over the set of through-vias on the second side of the dies. A device die is bonded to the second connectors. The dies and device dies are singulated into multiple packages. Corresponding structures result from these methods.

The electronic component package body includes a substrate, an electronic component, and first pins. The substrate includes a bottom surface, a top surface, and a first side surface. The first side surface is connected between the bottom surface and the top surface. The electronic component is packaged inside the substrate. The first pins are embedded in the substrate, and penetrate from the bottom surface to the top surface. The first pins include a bottom surface and a side surface connected to the bottom surface. The bottom surface is exposed relative to the bottom surface, and at least a partial structure of the side surface is exposed relative to the first side surface. Both the bottom surface and the side surface are used for soldering with solder. Reliability of soldering the electronic component package body and a circuit board is high.

A semiconductor package includes a semiconductor chip on a first redistribution substrate, a molding layer that covers the semiconductor chip, and a second redistribution substrate on the molding layer and that includes a dielectric layer, a redistribution pattern, and a conductive pad. The dielectric layer includes a lower opening that exposes the conductive pad, and an upper opening connected to the lower opening and that is wider than the lower opening. The semiconductor package also comprises a redistribution pad on the conductive pad and that covers a sidewall of the lower opening and a bottom surface of the upper opening. A top surface of the dielectric layer is located at a higher level than a top surface of the redistribution pad. The top surface of the redistribution pad is located on the bottom surface of the upper opening.

A semiconductor package includes a package substrate, an interposer, a semiconductor chip between the package substrate and the interposer, a plurality of conductive connectors between the package substrate and the interposer, and a capacitor stack structure between the package substrate and the interposer, he capacitor stack structure including a first capacitor connected to the package substrate, and a second capacitor connected to the interposer.

Disclosed is a semiconductor package device comprising a semiconductor chip including first and second chip pads on an active surface of the semiconductor chip, and a redistribution substrate on the first and second chip pads. The redistribution substrate includes first and second redistribution patterns sequentially stacked on the active surface. The first redistribution pattern includes a first via part and a first via pad part vertically overlapping the first via part. The second redistribution pattern includes a second via part and a second via pad part vertically overlapping the second via part. The first via part contacts the first chip pad. The second via part contacts the second chip pad. A length of the second via part is greater than that of the first via part.

A semiconductor package structure includes a first electronic component, a conductive element and a first redistribution structure. The first electronic component has a first surface and a second surface opposite to the first surface, and includes a first conductive via. The first conductive via has a first surface exposed from the first surface of the first electronic component. The conductive element is disposed adjacent to the first electronic component. The conductive element has a first surface substantially coplanar with the first surface of the first conductive via of the first electronic component. The first redistribution structure is configured to electrically connect the first conductive via of the first electronic component and the conductive element.