A semiconductor device includes a semiconductor substrate and a connection terminal, including a base pillar, on the semiconductor substrate. An insulation layer is formed on the semiconductor substrate, the insulation layer including an opening in the insulation layer through which the base pillar extends, wherein a side wall of the insulation layer defining the opening includes a horizontal step at a level that is lower than an uppermost portion of the base pillar.

A bond head is provided. The bond head includes a bond base, a chuck member, and an elastic material. The chuck member protrudes from a surface of the bond base, and has a chuck surface formed with vacuum holes for holding a die using differential air pressure. In the direction parallel to the chuck surface, the width of the chuck surface is less than the width of the bond base and is equal to or greater than the width of the die. The elastic material is disposed over the chuck surface. The elastic material is arranged around the periphery of the chuck surface to cover edges and/or corners of the chuck surface.

A semiconductor device includes a lead frame, a semiconductor element, a clip, a sealing material, and a thermal resistance portion. The semiconductor element is mounted on the lead frame. The clip is bonded through a bonding material to an electrode on a surface of the semiconductor element opposite to the lead frame. The sealing material covers the semiconductor element and the clip. The thermal resistance portion is disposed in a bonding region bonded through the bonding material between the semiconductor element and the clip. The thermal resistance portion has a thermal resistance higher than that of a different portion in the bonding region.

The present application provides a semiconductor device with an edge-protecting spacer over a bonding pad. The semiconductor device includes a bonding pad disposed over a semiconductor substrate; a first spacer disposed over a top surface of the bonding pad; a dielectric liner disposed between the first spacer and the bonding pad; a dielectric layer between the bonding pad and the semiconductor substrate, wherein the dielectric layer includes silicon-rich oxide; and a conductive bump disposed over the bonding pad and covering the first spacer and the dielectric liner, wherein the conductive bump is electrically connected to a source/drain (S/D) region in the semiconductor substrate through the bonding pad.

A substrate or semiconductor device, semiconductor device assembly, and method of forming a semiconductor device assembly that includes a barrier on a solder cup. The semiconductor device assembly includes a substrate disposed over another substrate. At least one solder cup extends from one substrate towards an under bump metal (UBM) on the other substrate. The barrier on the exterior of the solder cup may be a standoff to control a bond line between the substrates. The barrier may reduce solder bridging during the formation of a semiconductor device assembly. The barrier may help to align the solder cup with a UBM when forming a semiconductor device assembly and may reduce misalignment due to lateral movement of substrates and/or semiconductor devices.

A semiconductor device includes a bonding pad that includes a base portion having a base layer. A bond wire or clip is bonded to a bonding region of a main surface of the bonding pad. A supplemental structure is in direct contact with the base portion next to the bonding region. A specific heat capacity of the supplemental structure is higher than a specific heat capacity of the base layer.

A semiconductor device and method of manufacturing is provided, whereby a support structure is utilized to provide additional support for a conductive element in order to eliminate or reduce the formation of a defective surface such that the conductive element may be formed to have a thinner structure without suffering deleterious structures.

A semiconductor device includes: a semiconductor element that includes an element main body having an element main surface facing one side in a thickness direction, and a first electrode arranged on the element main surface; a first insulating layer that is arranged over a peripheral edge portion of the first electrode and the element main surface and includes a first annular portion formed in an annular shape when viewed in the thickness direction; and a second insulating layer that is laminated on the first insulating layer, is made of a resin material, and includes a second annular portion overlapping with the first annular portion when viewed in the thickness direction.

Packaging methods for semiconductor devices and methods of packaging thereof are disclosed. In some embodiments, a device includes a packaging apparatus and contact pads disposed on the packaging apparatus. The contact pads are arranged in an array of rows and columns. The contact pads include first contact pads proximate a perimeter region of the packaging apparatus and second contact pads disposed in an interior region of the packaging apparatus. A dam structure that is continuous is disposed around the second contact pads. The contact pads comprise a mounting region for a semiconductor device.

An electronic device that includes a semiconductor substrate and a conductive structure disposed over the semiconductor substrate. An insulator layer overlies the semiconductor substrate and includes a tapered opening that overlies a portion of the conductive structure. A flanged conductive column that includes a base portion is disposed in the tapered opening and is coupled to the portion of the conductive structure. The flanged conductive column further includes a flanged portion that is configured to be exposed to provide a conductive contact to the electronic device.