An electronic module has a first substrate 11, a first electronic element 13 provided on one side of the first substrate 11, a first connection body 60 provided on one side of the first electronic element 13, a second electronic element 23 provided on one side of the first connection body 60, a second substrate 21 provided on one side of the second electronic element 23, and an abutment body 250 that abuts on a face on one side of the second electronic element 23 and is capable of imparting a force toward one side with respect to the second substrate 21.

A semiconductor device includes metal connector plate having a first lower surface, facing an electrode of a semiconductor chip, a first end surface, a second end surface, and a second lower surface connecting the first end surface and the second end surface. In a first direction parallel to the semiconductor chip, an end surface of the electrode is located between the positions of the first end surface and the second end surface. A distance from the second lower surface to the electrode is greater than a distance from the first lower surface to the electrode. A joining component has a first portion between the first lower surface and the electrode and a second portion between the second lower surface and the electrode.

A semiconductor device includes: a seal portion; a first electronic element; a first lead terminal; a second lead terminal having one end that is disposed to be close to the one end of the first lead terminal within the seal portion, and another end that is exposed from another end of the seal portion, the other end of the seal portion being along the longitudinal direction; a first connecting element disposed within the seal portion, and having one end that is electrically connected to the first electrode disposed on the first electronic element, and another end that is electrically connected to the one end of the second lead terminal; and a conductive bonding agent.

A system configured to increase a reliability of electrical connections in a device. The system including a lead configured to electrically connect a pad of at least one support structure to a pad of at least one electrical component. The lead includes an upper portion that includes a lower surface arranged on a lower surface thereof. The lower surface of the upper portion is arranged vertically above a first upper surface of a first pad connection portion; and the lower surface of the upper portion is arranged vertically above a second upper surface of the second pad connection portion. A process configured to increase a reliability of electrical connections in a device is also disclosed.

A semiconductor wafer includes: a first main surface and a second main surface opposite the first main surface; a detachment plane parallel to the first main surface inside the semiconductor wafer, the detachment plane defined by defects; electronic semiconductor components formed at the first main surface and between the first main surface and the detachment plane; and a glass structure attached to the first main surface. The glass structure includes openings, each of which leaves a respective area of the electronic semiconductor components uncovered. A method of processing the wafer, a clip, and a semiconductor device are also described.

Provided is a semiconductor module enabling to effectively reduce, with a relatively simple structure, a thermal strain occurring in a bonding section between a semiconductor chip and other conductor members. The semiconductor module is characterized by being provided with: a first wiring layer; a semiconductor element bonded on the first wiring layer via a first bonding layer; a first electrode bonded on the semiconductor element via a second bonding layer; a second electrode connected on the first electrode; and a second wiring layer connected on the second electrode. The semiconductor module is also characterized in that: the width of the second electrode, said width being in the short-side direction, is more than the thickness of the first electrode; and the second electrode is disposed at a position off the center position of the semiconductor element.

A method of manufacturing a semiconductor package includes attaching semiconductor dies to an array of leadframes and positioning a clip array in alignment with the array of leadframes within a mold cavity, the clip array including clips that electrically connect to at least some of the semiconductor dies and a siderail along a perimeter of the clip array. The siderail forms a set of reliefs extending from an outer edge of the siderail to an inner edge of the siderail, the inner edge being adjacent to the array of leadframes. The method also includes injecting a mold compound into the mold cavity through a flow path including the set of reliefs of the siderail to form a mold block at least partially covering the semiconductor dies.

A semiconductor device includes: a seal portion; a first electronic element; a first lead terminal; a second lead terminal having one end that is disposed to be close to the one end of the first lead terminal within the seal portion, and another end that is exposed from another end of the seal portion, the other end of the seal portion being along the longitudinal direction; a first connecting element disposed within the seal portion, and having one end that is electrically connected to the first electrode disposed on the first electronic element, and another end that is electrically connected to the one end of the second lead terminal; and a conductive bonding agent.

A semiconductor device includes: a seal portion; an electronic element disposed within the seal portion; a first lead terminal; a second lead terminal having one end that is disposed to be close to the one end of the first lead terminal within the seal portion, and another end that is exposed from the seal portion; a first connecting element disposed within the seal portion, and having one end that is electrically connected to a control electrode of the electronic element, and another end that is electrically connected to the one end of the second lead terminal; a first conductive bonding agent for joining together the control electrode of the electronic element and the one end of the first connecting element in a conductive manner; and a second conductive bonding agent.

An electronic component has a base 10; an electronic element 20 provided on one side of the base 10; a connecting body 30 provided on one side of the electronic element 20; a heat dissipating block 40 provided on one side of the connecting body 30; an insulating part 50 provided between the connecting body 30 and the heat dissipating block 40; and a sealing part 90 in which the electronic element 20, the connecting body 30 and the insulating part 50 are sealed. At least a part of a surface on another side of the base 10 is exposed from the sealing part 90. At least a part of a surface on one side of the heat dissipating block 40 is exposed from the sealing part 90.