An interconnection structure of a semiconductor chip may include an interconnection via, a lower pad, a conductive bump, and an upper pad. The interconnection via may be arranged in the semiconductor chip. The lower pad may be arranged on a lower end of the interconnection via exposed through a lower surface of the semiconductor chip. The conductive bump may be arranged on the lower pad. The upper pad may be arranged on an upper end of the interconnection via exposed through an upper surface of the semiconductor chip. The upper pad may have a width wider than a width of the interconnection via and narrower than a width of the lower pad. Thus, an electrical short between the conductive bumps may not be generated in the interconnection structure having a thin thickness.

The present specification provides a display device using semiconductor light-emitting diodes which are self-assembled in fluid, and a method for manufacturing same. Specifically, the semiconductor light-emitting diode comprises: a first-conductive-type electrode layer and a second-conductive-type electrode layer; a first-conductive-type semiconductor layer electrically connected to the first-conductive-type electrode layer; an active layer provided on the first-conductive-type semiconductor layer; and a second-conductive-type semiconductor layer provided on the active layer and electrically connected to the second-conductive-type electrode layer, wherein one surface of the second-conductive-type semiconductor layer comprises a mesa structure formed by etching a portion of the one surface, and the second-conductive-type electrode layer is provided on the one surface comprising the mesa structure of the second-conductive-type semiconductor layer.

This mounting apparatus is provided with: a plurality of bonding stations each comprising a bonding apparatus for bonding a semiconductor chip onto a substrate wafer, and a chip supply apparatus for supplying the semiconductor chip to the bonding apparatus; and a single wafer transfer apparatus which transfers the substrate wafer in order to supply the substrate wafer to each of the plurality of bonding stations and to collect the substrate wafer from each of the plurality of bonding stations.

This mounting apparatus is provided with: a plurality of bonding stations each comprising a bonding apparatus for bonding a semiconductor chip onto a substrate wafer, and a chip supply apparatus for supplying the semiconductor chip to the bonding apparatus; and a single wafer transfer apparatus which transfers the substrate wafer in order to supply the substrate wafer to each of the plurality of bonding stations and to collect the substrate wafer from each of the plurality of bonding stations.

A semiconductor device includes an insulated circuit board having a conductive pattern layer, a sintered member disposed on the conductive pattern layer, a semiconductor chip placed on the sintered member, and a coating material covering the semiconductor chip. The sintered member has, on a surface thereof opposite to the conductive pattern layer, a frame shaping the outer edge of a recess. The semiconductor chip is mounted in the recess such that its top face is located closer to the conductive pattern layer than a top end of the frame.

A semiconductor device includes: a semiconductor base body; a semiconductor chip; a sintering material layer bonded to a lower surface of the semiconductor chip and having a thickness decreasing toward an outer periphery of the semiconductor chip; and a conductive plate having a main surface facing the lower surface of the semiconductor chip and a recessed portion which the sintering material layer contacts in the main surface, the recessed portion having a depth decreasing toward the outer periphery of the semiconductor chip.

A light-emitting device includes a carrier, a light-emitting element and a connection structure. The carrier includes a first electrical conduction portion. The light-emitting element includes a first light-emitting layer capable of emitting first light and a first contact electrode formed under the light-emitting layer. The first contact electrode is corresponded to the first electrical conduction portion. The connection structure includes a first electrical connection portion and a protective portion surrounding the first contact electrode and the first electrical connection portion. The first electrical connection portion includes an upper portion, a lower portion and a neck portion arranged between the upper portion and the lower portion. An edge of the upper portion is protruded beyond the neck portion, and an edge of the lower portion is protruded beyond the upper portion.

A semiconductor package includes a power semiconductor chip comprising SiC, a leadframe part comprising Cu, wherein the power semiconductor chip is arranged on the leadframe part, and a solder joint electrically and mechanically coupling the power semiconductor chip to the leadframe part, wherein the solder joint comprises at least one intermetallic phase.

A semiconductor package includes a power semiconductor chip comprising SiC, a leadframe part comprising Cu, wherein the power semiconductor chip is arranged on the leadframe part, and a solder joint electrically and mechanically coupling the power semiconductor chip to the leadframe part, wherein the solder joint comprises at least one intermetallic phase.

Among other things a method including releasing a discrete component from an interim handle and depositing a discrete component on a handle substrate, attaching the handle substrate to the discrete component, and removing the handle substrate from the discrete component.