A package construction includes: a die pad, and a suspension lead remaining portion connected to the die pad. Here, an offset portion is provided from a peripheral edge portion of the die pad to the suspension lead remaining portion. Also, the suspension lead remaining portion has: a first end portion connected to the die pad, and a second end portion opposite the first end portion. Further, the second end portion of the suspension lead remaining portion is exposed from the side surface of the sealing body at a position spaced apart from each of the upper surface and the lower surface.

A chip structure is provided. The chip structure includes a substrate. The chip structure includes a redistribution layer over the substrate. The chip structure includes a bonding pad over the redistribution layer. The chip structure includes a shielding pad over the redistribution layer and surrounding the bonding pad. The chip structure includes an insulating layer over the redistribution layer and the shielding pad. The chip structure includes a bump over the bonding pad and the insulating layer. A sidewall of the bump is over the shielding pad.

A chip stack packaging structure and method includes: a base chip layer, including a base chip with pins on the front surface; at least one stacked chip layer, which is formed on the base chip layer, has an inter-chip insulating layer and at least one stacked chip attached to the insulating layer and pins on the front surface, where the front surface of the stacked chip faces the front surface of the base chip; and a top insulating layer, stacked on the stacked chip layer farthest from the base chip layer. A vertical interconnection hole is formed inside the inter-chip insulating layer to allow the corresponding pins to be communicated vertically so as to be electrically connected. Inside the vertical interconnection hole, a conductive material layer is formed that makes the corresponding pins electrically connected; the stacked chip is thinned and reduced after being attached to the inter-chip insulating layer.

A semiconductor package includes: a substrate including a first region and a second region at least partially surrounding the first region in a plane defined by first and second horizontal directions, wherein the substrate has a first surface and a second surface opposed to the first surface; a wiring pattern disposed on the first surface of the substrate; a first recess formed on the second surface of the substrate and in the second region of the substrate; a back side insulating layer disposed on the second surface of the substrate, wherein the back side insulating layer fills an inside of the first recess; a through via penetrating through the first region of the substrate and the back side insulating layer, wherein the through via connects to the wiring pattern; and a second recess formed in the back side insulating layer and on the first recess.

In described examples, an integrated circuit includes a leadframe structure, which includes electrical conductors. A first coil structure is electrically connected to a first pair of the electrical conductors of the leadframe structure. The first coil structure is partially formed on a semiconductor die structure. A second coil structure is electrically connected to a second pair of the electrical conductors of the leadframe structure. The second coil structure is partially formed on the semiconductor die structure. A molded package structure encloses portions of the leadframe structure. The molded package structure exposes portions of the first and second pairs of the electrical conductors to allow external connection to the first and second coil structures. The molded package structure includes a cavity to magnetically couple portions of the first and second coil structures.

Some embodiments relate to a semiconductor device package, which includes a substrate with a contact pad. A non-solder ball is coupled to the contact pad at a contact pad interface surface. A layer of solder is disposed over an outer surface of the non-solder ball, and has an inner surface and an outer surface which are generally concentric with the outer surface of the non-solder ball. An intermediate layer separates the non-solder ball and the layer of solder. The intermediate layer is distinct in composition from both the non-solder ball and the layer of solder. Sidewalls of the layer of solder are curved or sphere-like and terminate at a planar surface, which is disposed at a maximum height of the layer of solder as measured from the contact pad interface surface.

In described examples, an integrated circuit includes a leadframe structure, which includes electrical conductors. A first coil structure is electrically connected to a first pair of the electrical conductors of the leadframe structure. The first coil structure is partially formed on a semiconductor die structure. A second coil structure is electrically connected to a second pair of the electrical conductors of the leadframe structure. The second coil structure is partially formed on the semiconductor die structure. A molded package structure encloses portions of the leadframe structure. The molded package structure exposes portions of the first and second pairs of the electrical conductors to allow external connection to the first and second coil structures. The molded package structure includes a cavity to magnetically couple portions of the first and second coil structures.

A chip structure is provided. The chip structure includes a substrate. The chip structure includes a redistribution layer over the substrate. The chip structure includes a bonding pad over the redistribution layer. The chip structure includes a shielding pad over the redistribution layer and surrounding the bonding pad. The chip structure includes an insulating layer over the redistribution layer and the shielding pad. The chip structure includes a bump over the bonding pad and the insulating layer. A sidewall of the bump is over the shielding pad.

Some embodiments relate to a semiconductor device package, which includes a substrate with a contact pad. A non-solder ball is coupled to the contact pad at a contact pad interface surface. A layer of solder is disposed over an outer surface of the non-solder ball, and has an inner surface and an outer surface which are generally concentric with the outer surface of the non-solder ball. An intermediate layer separates the non-solder ball and the layer of solder. The intermediate layer is distinct in composition from both the non-solder ball and the layer of solder. Sidewalls of the layer of solder are curved or sphere-like and terminate at a planar surface, which is disposed at a maximum height of the layer of solder as measured from the contact pad interface surface.

A semiconductor package includes a first semiconductor chip on a substrate and including a first semiconductor substrate and a first test pattern on a first surface of the first semiconductor substrate, and a second semiconductor chip on the first semiconductor chip and including a second semiconductor substrate and a second test pattern on a second surface of the second semiconductor substrate. The first and second semiconductor chips bonded to allow the first test pattern to face the second test pattern. The first test pattern includes a first in-pad, first connection pads, and a first out-pad. The second test pattern includes a second in-pad bonded to the first in-pad, a second out-pad bonded to the first out-pad, and second connection pads bonded to the first connection pads. The first and second connection pads are connected in series to alternately connect with each other and form a series wiring pattern, so that each first connection pad connects to another first connection pad in one direction along the series wiring pattern and to a second connection pad in an opposite direction along the series wiring pattern.