In some examples, a device includes a semiconductor element, a layer element, and a single connector element electrically connecting the semiconductor element and the layer element. In some examples, the single connector element includes two or more discrete connector elements, and each discrete connector element of the two or more discrete connector elements electrically connects the semiconductor element and the layer element. In some examples, the single connector element also includes conductive material attached to the two or more discrete connector elements.

A microelectronic device has a bump bond structure including an electrically conductive pillar with an expanded head, and solder on the expanded head. The electrically conductive pillar includes a column extending from an I/O pad to the expanded head. The expanded head extends laterally past the column on at least one side of the electrically conductive pillar. In one aspect, the expanded head may have a rounded side profile with a radius approximately equal to a thickness of the expanded head, and a flat top surface. In another aspect, the expanded head may extend past the column by different lateral distances in different lateral directions. In a further aspect, the expanded head may have two connection areas for making electrical connections to two separate nodes. Methods for forming the microelectronic device are disclosed.

A microelectronic device has a bump bond structure including an electrically conductive pillar with an expanded head, and solder on the expanded head. The electrically conductive pillar includes a column extending from an I/O pad to the expanded head. The expanded head extends laterally past the column on at least one side of the electrically conductive pillar. In one aspect, the expanded head may have a rounded side profile with a radius approximately equal to a thickness of the expanded head, and a flat top surface. In another aspect, the expanded head may extend past the column by different lateral distances in different lateral directions. In a further aspect, the expanded head may have two connection areas for making electrical connections to two separate nodes. Methods for forming the microelectronic device are disclosed.

A semiconductor device includes a solder bump overlying and electrically connected to a pad region, and a metal cap layer formed on at least a portion of the solder bump. The metal cap layer has a melting temperature greater than the melting temperature of the solder bump.

A semiconductor package includes a first die having a first surface, a first conductive bump over the first surface and having first height and a first width, a second conductive bump over the first surface and having a second height and a second width. The first width is greater than the second width and the first height is substantially identical to the second height. A method for manufacturing the semiconductor package is also provided.

A semiconductor package includes a connection substrate with a cavity, a first semiconductor chip and a second semiconductor chip on the connection substrate, a third semiconductor chip in the cavity of the connection substrate, the first semiconductor chip and the second semiconductor chip being on the third semiconductor chip and being connected to each other through the third semiconductor chip, and a molding layer that covers the first semiconductor chip, the second semiconductor chip, and the third semiconductor chip, wherein the third semiconductor chip includes first bumps that are exposed through the molding layer and are connected to the first semiconductor chip and the second semiconductor chip.

A semiconductor device including a substrate including a first conductive pad on a first surface thereof, at least one first bump structure on the first conductive pad, the first bump structure including a first connecting member and a first delamination prevention layer, the first delamination prevention layer on the first connecting member and having a greater hardness than the first connecting member, and a first encapsulant above the first surface of the substrate and surrounding the first bump structure may be provided.

A semiconductor device includes a solder bump overlying and electrically connected to a pad region, and a metal cap layer formed on at least a portion of the solder bump. The metal cap layer has a melting temperature greater than the melting temperature of the solder bump.

Package-On-Package (PoP) structures that includes stud bulbs is provided. According to an embodiment, a POP structure includes a first substrate, stud bulbs, a die, a second substrate, and electrical connectors. The stud bulbs are coupled to a first surface of the first substrate. The die is attached to the first surface of the first substrate. The electrical connectors are coupled to the second substrate, and respective ones of the electrical connectors are coupled to respective ones of the stud bulbs.

An electronic component with high coplanarity, including a body with a functional circuit and a mounting plane, a first electrode with a first area deposited on the mounting plane, and a second electrode with a second area deposited on the mounting plane, wherein the first area is larger than the second area, and the first electrode and the second electrode includes a conductive layer and at least one first plating layer over the conductive layer, and a thickness of the conductive layer of the first electrode is smaller than a thickness of the conductive layer of the second electrode, and a thickness of the first plating layer of the first electrode is larger than a thickness of the first plating layer of the second electrode.