An apparatus including a carrier substrate configured to move a microelectronic device. The apparatus further includes a rotatable body configured to receive the microelectronic device. Additionally, the apparatus includes a second substrate configured to receive the microelectronic device from the rotatable body.

An apparatus including a carrier substrate configured to move a microelectronic device. The apparatus further includes a rotatable body configured to receive the microelectronic device. Additionally, the apparatus includes a second substrate configured to receive the microelectronic device from the rotatable body.

A power semiconductor module includes a wiring member that electrically connects a front surface electrode of a semiconductor element and a circuit board of an insulating substrate in a housing. A resin provided in the housing covers the wiring member, and has a height in the vicinity of the wiring member. A cover covering the periphery of external terminals is provided between the resin and a first lid in the housing. A second lid is provided further outside the first lid in an aperture portion of the housing, and the space between the second lid and the first lid is filled with another resin.

A 3D semiconductor device including: a first level including a first single-crystal layer, a plurality of first transistors, a first metal layer (includes interconnection of first transistors), and a second metal layer, where first transistors' interconnection includes forming logic gates; a plurality of second transistors disposed atop, at least in part, of logic gates; a plurality of third transistors disposed atop, at least in part, of the second transistors; a third metal layer disposed above, at least in part, the third transistors; a global grid to distribute power and overlaying, at least in part, the third metal layer; a local grid to distribute power to the logic gates, the local grid is disposed below, at least in part, the second transistors, where the second transistors are aligned to the first transistors with less than 40 nm misalignment, where at least one of the second transistors includes a metal gate.

A 3D semiconductor device including: a first level including a single crystal layer and plurality of first transistors; a first metal layer including interconnects between first transistors, where the interconnects between the first transistors includes forming logic gates; a second metal layer atop at least a portion of the first metal layer, second transistors which are vertically oriented, are also atop a portion of the second metal layer; where at least eight of the first transistors are connected in series forming at least a portion of a NAND logic structure, where at least one of the second transistors is at least partially directly atop of the NAND logic structure; and a third metal layer atop at least a portion of the second transistors, where the second metal layer is aligned to the first metal layer with a less than 150 nm misalignment.

A method for producing a 3D memory device, the method including: providing a first level including a first single crystal layer; forming first alignment marks and control circuits in and on the first level, where the control circuits include first single crystal transistors, where the control circuits include at least two metal layers; forming at least one second level disposed on top of the first level; performing a first etch step within the second level; forming at least one third level disposed on top of the at least one second level; performing a second etch step within the third level; and performing additional processing steps to form a plurality of first memory cells within the second level and a plurality of second memory cells within the third level, where the first memory cells include second transistors, and where the second memory cells include third transistors.

A method for processing a 3D integrated circuit, the method including: providing a first level including a first wafer, the first wafer including a first crystalline substrate, a plurality of first transistors, and first copper interconnecting layers, where the first copper interconnecting layers at least interconnect the plurality of first transistors; processing a second level including a second wafer, the second wafer including a second crystalline substrate, a plurality of second transistors, and second copper interconnecting layers, where the second copper interconnecting layers at least interconnect the plurality of second transistors; then forming a bonded structure by bonding the second level to the first level, where the bonding includes metal to metal bonding, where the bonding includes oxide to oxide bonding; and then performing a lithography process to define dice lines for the bonded structure; and etching the dice lines.

Embodiments provide a light emitting device package including a package body having a through-hole; a radiator disposed in the through-hole and including an alloy layer having Cu; and a light emitting device disposed on the radiator, wherein the alloy layer includes at least one of W or Mo, and wherein the package body includes cavity including a sidewall and a bottom surface, and wherein the through-hole is formed in the bottom surface.

Embodiments provide a light emitting device package including a package body having a through-hole; a radiator disposed in the through-hole and including an alloy layer having Cu; and a light emitting device disposed on the radiator, wherein the alloy layer includes at least one of W or Mo, and wherein the package body includes cavity including a sidewall and a bottom surface, and wherein the through-hole is formed in the bottom surface.

A semiconductor device encompasses a cooler made of ceramics, having a first main face and a second main face, being parallel and opposite to the first main face, defined by two opposite side faces perpendicular to the first and second main faces, a plurality of conductive-pattern layers delineated on the first main face, a semiconductor chip mounted on the first main face via one of the plurality of conductive-pattern layers, and a seal member configured to seal the semiconductor chip.