A resin enclosure includes: an inner wall portion from a wall surface defining the space to a side surface of the lead terminal close to the space; and a covering portion that covers at least a part of a top surface of a first portion of the lead terminal.

A memory module, includes a module substrate and at least one semiconductor package on the module substrate that includes a package substrate having a lower surface and an upper surface. First and second groups of lower pads are on the lower surface, and upper pads are on the upper surface and are electrically connected to the lower pads of the first group. A chip structure is on the upper surface of the package substrate and is electrically connected to the upper pads. First connection bumps connect the lower pads of the first group to the module substrate, and second connection bumps connect the lower pads of the second group to the module substrate. The first connection bumps have a first maximum width at a first distance from the package substrate, and the second connection bumps have a second maximum width at a second, shorter distance from the package substrate.

A 3D semiconductor device including: a first level including a first single crystal layer and first transistors, which each include a single crystal channel; a first metal layer with an overlaying second metal layer; a second level including second transistors, overlaying the first level; a third level including third transistors, overlaying the second level; a fourth level including fourth transistors, overlaying the third level, where the second level includes first memory cells, where each of the first memory cells includes at least one of the second transistors, where the fourth level includes second memory cells, where each of the second memory cells includes at least one of the fourth transistors, where the first level includes memory control circuits, where second memory cells include at least four memory arrays, each of the four memory arrays are independently controlled, and at least one of the second transistors includes a metal gate.

A semiconductor device is provided, which is configured to improve the adhesion between the resin part and the leads without interfering with proper operation of the semiconductor device. The semiconductor device includes a semiconductor element 1, a first lead 2 including a first pad portion 21, a second lead 3 including a second pad portion 31, a conductor member 61, and a resin part 8. The first pad portion 21 has a first-pad obverse surface 21a including a first smooth region 211 to which an element reverse surface 1b is bonded, and a first rough region 212 spaced apart from the semiconductor element 1 as viewed in z direction and has a higher roughness than the first smooth region 211. The second pad portion 31 has a second-pad obverse surface 31a including a second smooth region 311 to which a second bonding portion 612 is bonded, and a second rough region 312 spaced apart from the second bonding portion 612 as viewed in z direction and has a higher roughness than the second smooth region 311.

A semiconductor module includes a heat sink configured to conduct a cooling fluid in a cooling-fluid flow direction. A first semiconductor assembly is arranged on a surface of the heat sink. The first semiconductor assembly includes a first substrate having a first dielectric material layer, and a first semiconductor element connected to the first substrate. A second semiconductor assembly is arranged on the surface of the heat sink and closest to a downstream end of the heat sink. The second semiconductor assembly includes a second substrate having a second dielectric material layer, and a second semiconductor element connected to the second substrate. The second dielectric material layer has a thermal conductivity which is higher than a thermal conductivity of the first dielectric material layer.

A housing for a semiconductor module includes sidewalls extending horizontally around an internal volume of the housing and a groove formed in a bottom surface of the sidewalls and extending along a circumference of the housing. The bottom surface of the sidewalls is configured to be attached to a substrate or a base plate. The groove extends into the sidewalls of the housing in a vertical direction. The groove includes a first section having a constant width in a horizontal direction and beveled edges between the first section and the bottom surface of the sidewalls. The beveled edges define a second section arranged between the first section and the bottom surface of the sidewalls, and having a varying width in the horizontal direction. The width of the second section gradually increases from the first section towards the bottom surface of the sidewalls.

A semiconductor package includes a wiring substrate including a conductive wiring and a plurality of wiring patterns, a terminal pad including a plurality of outermost terminal pads adjacent to each end of the wiring substrate, and a buffer structure interposed between at least two outermost terminal pads from among the plurality of outermost terminal pads. The buffer structure includes a metal. The structure includes a first material having a first ionization tendency that differs from a second ionization tendency of a second material included in at least one of the conductive wiring or the plurality of wiring patterns.

A semiconductor device includes a heat sink, a base material including an insulating layer and mounted on the heat sink on one side in a first direction, a first conductive layer bonded to the base material and located on a side opposite the heat sink with respect to the base material, a first semiconductor element bonded to the first conductive layer, a first power terminal electrically connected to the first conductive layer and the first semiconductor element, and a sealing resin covering the first conductive layer and the first semiconductor element. The first power terminal is exposed from the sealing resin. The first power terminal is surrounded by a peripheral edge of the sealing resin as viewed in the first direction.

A semiconductor device includes a support including a base member having a first main surface facing a thickness direction, a semiconductor element, and a bonding material that bonds the support and the semiconductor element. The bonding material includes a sintered metal portion and a resin portion. The support includes a metal layer located on the first main surface and having a stronger sintered bonding with the sintered metal portion than the base member. The bonding material includes a first portion in contact with the semiconductor element and the metal layer, and a second portion in contact with the semiconductor element and the base member.

A semiconductor device includes a substrate having a first surface, a second surface, and an opening; a semiconductor device layer having a third surface and a fourth surface; a heat transfer member; source electrodes disposed on a fourth surface; and electrically conductive vias that penetrate the semiconductor device layer and a diamond layer to electrically connect the source electrodes to a metal layer. The heat transfer member includes the diamond layer and the metal layer, the diamond layer covers a bottom surface and an inner wall surface of the opening, and the metal layer is disposed on the diamond layer.