A semiconductor device includes a first substrate and a second substrate that is stacked on a first surface of the first substrate in a stacking direction and includes a second surface facing the first surface. A plurality of first terminals is provided on the first surface of the first substrate. A plurality of second terminals is provided on the second surface of the second substrate. A plurality of metallic portions is respectively provided between the plurality of first terminals and the plurality of second terminals. In a cross-section substantially perpendicular to the stacking direction, at least one of (i) each of the plurality of first terminals or (ii) each of the plurality of second terminals (a) includes a recessed portion in a first direction toward an adjacent first terminal or second terminal or (b) includes a projecting portion in a second direction intersecting with the first direction.

A nonvolatile memory device includes a memory cell region including first pads and a peripheral circuit region including second pads. The regions comprises switches that are electrically connected with the pads, respectively, a test signal generator that generates test signals and to transmit the test signals to the switches, internal circuits that receive first signals through the pads and the switches, to perform operations based on the first signals, and to output second signals through the switches and the pads based on a result of the operations, and a switch controller that controls the switches so that the pads communicate with the test signal generator during a test operation and that the pads communicate with the internal circuits after a completion of the test operation. The peripheral circuit region is vertically connected to the memory cell region by the first metal pads and the second metal pads directly.

Discussed is a device for self-assembling semiconductor light-emitting diodes includes a substrate chuck that is provided in an assembly chamber and supports a substrate and disposes the substrate at an assembly position, wherein the substrate chuck sucks or injects a gas present between the substrate and a fluid during loading and unloading of the substrate.

Discussed is a device for self-assembling semiconductor light-emitting diodes includes a substrate chuck that is provided in an assembly chamber and supports a substrate and disposes the substrate at an assembly position, wherein the substrate chuck sucks or injects a gas present between the substrate and a fluid during loading and unloading of the substrate.

A semiconductor device includes a substrate, a first redistribution layer (RDL) over a first side of the substrate, one or more semiconductor dies over and electrically coupled to the first RDL, and an encapsulant over the first RDL and around the one or more semiconductor dies. The semiconductor device also includes connectors attached to a second side of the substrate opposing the first side, the connectors being electrically coupled to the first RDL. The semiconductor device further includes a polymer layer on the second side of the substrate, the connectors protruding from the polymer layer above a first surface of the polymer layer distal the substrate. A first portion of the polymer layer contacting the connectors has a first thickness, and a second portion of the polymer layer between adjacent connectors has a second thickness smaller than the first thickness.

A semiconductor device includes a substrate, a first redistribution layer (RDL) over a first side of the substrate, one or more semiconductor dies over and electrically coupled to the first RDL, and an encapsulant over the first RDL and around the one or more semiconductor dies. The semiconductor device also includes connectors attached to a second side of the substrate opposing the first side, the connectors being electrically coupled to the first RDL. The semiconductor device further includes a polymer layer on the second side of the substrate, the connectors protruding from the polymer layer above a first surface of the polymer layer distal the substrate. A first portion of the polymer layer contacting the connectors has a first thickness, and a second portion of the polymer layer between adjacent connectors has a second thickness smaller than the first thickness.

A package includes a first layer of molding material, a first metallization layer on the first layer of molding material, a second layer of molding material on the first metallization layer and the first layer of molding material, a second metallization layer on the second layer of molding material, through vias within the second layer of molding material, the through vias extending from the first metallization layer to the second metallization layer, integrated passive devices within the second layer of molding material, a redistribution structure electrically on the second metallization layer and the second layer of molding material, the redistribution structure connected to the through vias and the integrated passive devices, and at least one semiconductor device on the redistribution structure, the at least one semiconductor device connected to the redistribution structure.

A package includes a first layer of molding material, a first metallization layer on the first layer of molding material, a second layer of molding material on the first metallization layer and the first layer of molding material, a second metallization layer on the second layer of molding material, through vias within the second layer of molding material, the through vias extending from the first metallization layer to the second metallization layer, integrated passive devices within the second layer of molding material, a redistribution structure electrically on the second metallization layer and the second layer of molding material, the redistribution structure connected to the through vias and the integrated passive devices, and at least one semiconductor device on the redistribution structure, the at least one semiconductor device connected to the redistribution structure.

Implementations of semiconductor packages may include a first die including a plurality of contact pads, a second die including a plurality of contact pads, a plurality of solder interconnects bonding the plurality of contact pads of the first die to the plurality of contact pads of the second die, and a plurality of magnetic particles each coated in an oxide included in each of the plurality of solder interconnects.

A semiconductor device package includes a substrate, a semiconductor device, and an underfill. The semiconductor device is disposed on the substrate. The semiconductor device includes a first lateral surface. The underfill is disposed between the substrate and the semiconductor device. The underfill includes a first lateral surface. The first lateral surface of the underfill and the first lateral surface of the semiconductor device are substantially coplanar.