Provided is a semiconductor module including: an insulating circuit board having a circuit pattern formed in one surface; a semiconductor chip placed in the insulating circuit board; and a wiring portion for electrically connecting the semiconductor chip and the circuit pattern. The wiring portion includes a chip connecting portion connected to the semiconductor chip. A surface of the chip connecting portion includes: a plurality of concave portions; and a flat portion disposed between two concave portions.

A semiconductor device includes: a substrate; a semiconductor element that disposed on the upper surface of the substrate; a sealing portion that seals the substrate and the semiconductor element; a first lead frame that has one end in contact with a upper surface of the first conductive layer at an end extending in the side direction of the upper surface of the substrate in the sealing portion, and has the other end exposed from the sealing portion; a first conductive bonding material that bonds between the upper surface of the first conductive layer and the lower surface side of the one end portion of the first lead frame at the end portion of the substrate, and has electrical conductivity.

An electronic module has a sealing part 90; a rear surface-exposed conductor 10, 20, 30 having a rear surface-exposed part 12, 22, 32 whose rear surface is exposed; a rear surface-unexposed conductor 40, 50 whose rear surface is not exposed; an electronic element 15, 25, which is provided in the sealing part 90 and provided on a front surface of the rear surface-exposed conductor 40, 50; a first connector 60 for electrically connecting the electronic element 15, 25 with the rear surface-exposed conductor 10, 20, 30; and a second connector 70 for electrically connecting the electronic element 15, 25 with the rear surface-unexposed conductor 40, 50. A thickness T1 of the first connector 60 is thicker than a thickness T2 of the second connector 70.

A semiconductor package according to an embodiment of the present invention Includes: a lead frame comprising a pad and a lead spaced apart from the pad by a regular interval; a semiconductor chip adhered on the pad; and a clip structure electrically connecting the semiconductor chip and the lead, wherein an one end of the clip structure connected to the semiconductor chip inclines with respect to upper surfaces of chip pads of the semiconductor chip and is adhered to the upper surfaces of the chip pads of the semiconductor chip. A semiconductor package according to another embodiment of the present invention includes: a semiconductor chip comprising one or more chip pads; one or more leads electrically connected to the chip pads; and a sealing member covering the semiconductor chip, wherein an one end of the lead inclines with respect to one surface of the chip pad and is adhered to the chip pad and an other end of the lead is exposed to the outside of the sealing member.

In some examples, a system comprises a first component having a first surface, a first set of nanoparticles coupled to the first surface, and a first set of nanowires extending from the first set of nanoparticles. The system also comprises a second component having a second surface, a second set of nanoparticles coupled to the second surface, and a second set of nanowires extending from the second set of nanoparticles. The system further includes an adhesive positioned between the first and second surfaces. The first and second sets of nanowires are positioned within the adhesive.

An electronic module comprises a sealing part 90, a rear surface-exposed conductor 10, 20, 30, a rear surface-unexposed conductor 40, 50 and a second connector 70 for electrically connecting an electronic element 15, 25 to the rear surface-unexposed conductor 40, 50. The rear surface-unexposed conductor 40, 50 is positioned on a front surface side compared with the rear surface-exposed part 12, 22, 32. The second connection tip part 72 is positioned on a rear surface side compared with the second connection base part 71. A distance H in a thickness direction between a rear surface side end part of the second connection base part 71 and a rear surface side end part of the second connection tip part 72 is larger than a width W of the second connection tip part 72 of the second connector 70.

According to one embodiment, a semiconductor device includes a semiconductor chip, first and second conductive members, a first connection member, and a resin portion. The first conductive member includes first and second portions. The second portion is electrically connected to the semiconductor chip. A direction from the semiconductor chip toward the second portion is aligned with a first direction. A direction from the second portion toward the first portion is aligned with a second direction crossing the first direction. The second conductive member includes a third portion. The first connection member is provided between the first and third portion. The first connection member is conductive. The resin portion includes a first partial region. The first partial region is provided around the first and third portions, and the first connection member. The first portion has a first surface opposing the first connection member and including a recess and a protrusion.

A method for processing a semiconductor wafer is provided. A semiconductor wafer includes a first main surface and a second main surface. Defects are generated inside the semiconductor wafer to define a detachment plane parallel to the first main surface. Processing the first main surface defines a plurality of electronic semiconductor components. A glass structure is provided which includes a plurality of openings. The glass structure is attached to the processed first main surface, each of the plurality of openings leaving a respective area of the plurality of electronic semiconductor components uncovered. A polymer layer is applied to the second main surface and the semiconductor wafer is split into a semiconductor slice and a remaining semiconductor wafer by cooling the polymer layer beneath its glass transition temperature along the detachment plane. The semiconductor slice includes the plurality of electronic semiconductor components.

A semiconductor device includes: a lead frame that has one end in contact with the upper surface of the second terminal of the semiconductor element in the sealing portion, and that has the other end exposed from the sealing portion; and a control conductive bonding material that bonds between the upper surface of the second terminal of the semiconductor element and the one end of the lead frame, and the control conductive bonding material having electric conductivity.

The one end portion of the connector of the semiconductor device includes: a horizontal portion; a first inclined portion that is connected to the horizontal portion and is located closer to the tip end side of the one end than the horizontal portion, and the first inclined portion having a shape inclined downward from the horizontal portion; and a control bending portion that is connected to the first inclined portion and positioned at the tip of the one end portion, and the control bending portion bent downwardly along the bending axis direction. The lower surface of the control bending portion is in contact with an upper surface of the second terminal.