An apparatus includes an integrated circuit and a substrate coupled to the integrated circuit. The substrate includes a primary layer having a first surface that is a first external surface of the substrate. The primary layer includes an open area that extends through the primary layer to an inner layer of the substrate. The substrate includes a secondary layer. The inner layer is located between the primary layer and the secondary layer. The inner layer includes a third surface that is orientated approximately parallel to the first surface of the primary layer. A portion of the third surface of the inner layer is exposed via the open area of the primary layer. A first plurality of wire bond pads are disposed on the portion of the third surface of the inner layer that is exposed via the open area of primary layer.

A semiconductor package includes a frame having a first surface, a second surface opposite the first surface, and a through-hole, a first semiconductor chip in the through-hole of the frame, a second semiconductor chip on the frame, a first connection structure on the first surface of the frame and including a first redistribution structure electrically connected to the first semiconductor chip and having a third surface contacting the first surface of the frame, the first redistribution structure including a first redistribution layer and a first redistribution via, a first pad on a center portion of a fourth surface of the first redistribution structure opposite the third surface, a second pad on an edge portion of the fourth surface, a second connection structure on the second surface and comprising a second redistribution structure electrically connected to the second semiconductor chip and including a second redistribution layer and a second redistribution via, and an electrical connection metal on the first pad on the fourth surface, wherein the electrical connection metal is not on the second pad.

A semiconductor device includes a wiring board; a first semiconductor chip including a first surface, a second surface, and a connection bump on the first surface, the first semiconductor chip coupled to the wiring board through the connection bump; a resin layer covering the connection bump between the first semiconductor chip and the wiring board, an upper surface of the resin layer parallel to the second surface of the first semiconductor chip; and a second semiconductor chip including a third surface, a fourth surface, and an adhesive layer on the third surface, the second semiconductor chip adhering to the second surface of the first semiconductor chip and the upper surface of the resin layer through the adhesive layer. The upper surface of the resin layer projects outside a portion of at least an outer edge of the second semiconductor chip when viewed from the top.

A stacked-chip apparatus includes a package substrate and an interposer with a chip stack disposed with a standoff that matches the interposer. A package-on-package stacked-chip apparatus includes a top package disposed on the interposer.

A package structure includes a plurality of stacked die units and an insulating encapsulant. The plurality of stacked die units is stacked on top of one another, where each of the plurality of stacked die units include a first semiconductor die, a first bonding chip. The first semiconductor die has a plurality of first bonding pads. The first bonding chip is stacked on the first semiconductor die and has a plurality of first bonding structure. The plurality of first bonding structures is bonded to the plurality of first bonding pads through hybrid bonding. The insulating encapsulant is encapsulating the plurality of stacked die units.

There is provided a semiconductor device including an insulating substrate provided with a circuit surface, and an external terminal bonded to the circuit surface. The circuit surface has an upper surface that is in contact with and bonded to a part of a lower surface of the external terminal. In at least a part of a portion where the upper surface of the circuit surface and the lower surface of the external terminal are in contact with each other, a melted portion of the circuit surface and the external terminal is formed. A gap between the upper surface of the circuit surface and the lower surface of the external terminal has a size of 20 μm or less. The circuit surface and the external terminal are each made of copper or copper alloy.

A unit includes a wiring board having a first face having a mounting portion on which an electronic device is mounted, a second face opposite to the first face, and end faces continuous with the first face and the second face, a resin member provided to cover the end faces and to have protrusions protruding upward from the end faces to face each other across a space above the mounting portion, and an insulating film covering the second face, wherein at least a part of an edge of the insulating film is provided away from an end of the second face on the end face side.

A semiconductor package is provided. The semiconductor package includes: a first redistribution substrate; a semiconductor chip provided on the first redistribution substrate; a molding layer provided on the first redistribution substrate and the semiconductor chip; and a second redistribution substrate provided on the molding layer. The second redistribution substrate includes: redistribution patterns spaced apart from one another; a first dummy conductive pattern spaced apart from the redistribution patterns; an insulating layer provided on the first dummy conductive pattern; and a marking metal layer provided on the insulating layer and spaced apart from the first dummy conductive pattern. Sidewalls of the marking metal layer overlap the first dummy conductive pattern along a vertical direction perpendicular to an upper surface of the first redistribution substrate.

A package structure includes a first redistribution circuit structure, a semiconductor die, a connecting film, and a second redistribution circuit structure. The first redistribution circuit structure includes a dielectric structure and a routing structure disposed therein, where the dielectric structure includes a trench exposing the routing structure. The semiconductor die is disposed on and electrically coupled to the first redistribution circuit structure. The connecting film is disposed in the trench and between the semiconductor die and the first redistribution circuit structure, and the semiconductor die is thermally coupled to the routing structure through the connecting film. The second redistribution circuit structure is disposed on and electrically coupled to the semiconductor die, the second redistribution circuit structure is electrically coupled to the first redistribution circuit structure, and the semiconductor die is disposed between the first redistribution circuit structure and the second redistribution circuit structure.

An electronic package is provided, including a package substrate in which a circuit layer and a surface treatment layer are embedded in an insulating portion, and the surface treatment layer is coupled to a top surface of the circuit layer, but is not formed on a side surface of the circuit layer. Therefore, the circuit layer can maintain the original predetermined line spacing so that it is beneficial to be designed with fine line spacing/line width.