A semiconductor device includes: a resin layer having a resin main surface; a mounting wiring layer arranged on the resin main surface, and having a mounting wiring main surface facing the same side as the resin main surface and a mounting wiring back surface facing the side of the resin main surface; a semiconductor element including an element wiring layer which is mounted on the mounting wiring main surface, has an element wiring main surface facing the side of the resin layer, and is connected to the mounting wiring layer; and a sealing resin which seals the mounting wiring layer and the semiconductor element, wherein the mounting wiring main surface and the element wiring main surface are rough surfaces having a larger surface roughness than the mounting wiring back surface.

Embodiments disclosed herein include electronic packages. In an embodiment, the electronic package comprises a package substrate, and a first pad over the package substrate. In an embodiment, a layer is over the package substrate, where the layer is an insulating material. In an embodiment, the electronic package further comprises a via through the layer and in contact with the first pad. In an embodiment a first end of the via has a first width and a second end of the via that is in contact with the first pad has a second width that is larger than the first width. In an embodiment, the electronic package further comprises a second pad over the via.

A package comprising a substrate and an integrated device coupled to the substrate through a plurality of pillar interconnects and a plurality of solder interconnects. The plurality of pillar interconnects comprises a first pillar interconnect. The first pillar interconnect comprises a first pillar interconnect portion comprising a first width and a second pillar interconnect portion comprising a second width that is different than the first width.

A chip package includes a first interconnection scheme; a plurality of first metal contacts under and on the first interconnection scheme and at a bottom surface of the chip package; a first semiconductor IC chip over the first interconnection scheme; a first connector over the first interconnection scheme and at a same horizontal level as the first semiconductor IC chip, wherein the first connector comprises a first substrate and a plurality of first through vias vertically extending through the first substrate of the first connector; a first polymer layer over the first interconnection scheme, wherein the first polymer layer has a top surface coplanar with a top surface of the first semiconductor IC chip, a top surface of the first substrate of the first connector and a top surface of each of the plurality of first through vias; and a second interconnection scheme on the top surface of the first polymer layer, the top surface of the first semiconductor IC chip, the top surface of the first connector and the top surface of each of the plurality of first through vias, wherein the second interconnection scheme comprises a plurality of second metal contacts at a top surface of the chip package.

A method includes applying a temporary pad to a conductive pad of a semiconductor die. After testing the semiconductor die, the temporary pad is removed from the conductive pad.

A semiconductor package includes a redistribution substrate having first and second surfaces, a first semiconductor chip on the first surface, external terminals on the second surface, a second semiconductor chip above the first semiconductor chip, external connection members below the second semiconductor chip, conductive pillars electrically connecting the external connection members to the redistribution substrate. The second semiconductor chip includes a device layer, a wiring layer, and a redistribution layer on a semiconductor substrate. The wiring layer includes intermetallic dielectric layers, wiring lines, and a conductive pad connected to an uppermost wiring line. The redistribution layer includes a first redistribution dielectric layer, a first redistribution pattern, and a second redistribution dielectric layer. A vertical distance between the semiconductor substrate and the conductive pillars is less than that between the first semiconductor chip and the external terminals.

A manufacturing method of an electronic apparatus is provided, and the manufacturing method includes following steps. A substrate is provided. A plurality of first bonding pads are formed on the substrate. A plurality of electronic devices are provided, and each of the electronic devices includes at least one second bonding pad. The second bonding pads of the electronic devices corresponding to the first bonding pads are laminated onto the corresponding first bonding pads on the substrate, so as to bond the electronic devices to the substrate. The corresponding first and second bonding pads respectively have bonding surfaces with different surface topographies. The manufacturing method of the electronic apparatus is capable of reducing short circuit during a bonding process or improving a bonding yield.

Provided is a semiconductor package including a first bump pad on a first substrate, a second bump pad on a second substrate, a core material for reverse reflow between the first bump pad and the second bump pad, and a solder member forming a solder layer on the core material for reverse reflow. The solder member is in contact with the first bump pad and the second bump pad. Each of a first diameter of the first bump pad and a second diameter of the second bump pad is at least about 1.1 times greater than a third diameter of the core material for reverse reflow. The core material for reverse reflow includes a core, a first metal layer directly coated on the core, and a second metal layer directly coated on the first metal layer.

A flip chip includes a substrate, an electrode pad layer stacked over the substrate, a passivation layer stacked at both ends of the electrode pad layer, an under bump metallurgy (UBM) layer stacked over the electrode pad layer and the passivation layer, and a bump formed over the UBM layer. The width of an opening on which the passivation layer is not formed over the electrode pad layer is greater than the width of the bump. The flip chip can prevent a crack from being generated in the pad upon ultrasonic bonding.

Semiconductor packages may include a first semiconductor chip including a first through-electrode and a first upper connection pad and on an upper surface of the first semiconductor chip, a second semiconductor chip on the first semiconductor chip and including a second lower connection pad on a lower surface of the second semiconductor chip, a connection bump between the first and second semiconductor chips and connected to the first upper connection pad and the second lower connection pad, a first insulating layer between the first and second semiconductor chips and surrounding the first upper connection pad, the connection bump, and the second lower connection pad, and a second insulating layer between the first semiconductor chip and the first insulating layer and extending on the upper surface of the first semiconductor chip, a side surface of the first upper connection pad, and a portion of a side surface of the connection bump.