A semiconductor device manufacturing method, includes: a preparing process for preparing a conductive plate, a semiconductor chip arranged over the conductive plate with a first bonding material therebetween, and a connection terminal including a bonding portion arranged over the semiconductor chip with a second bonding material therebetween; a first jig arrangement process for arranging a first guide jig, through which a first guide hole pierces, over the conductive plate, such that the first guide hole corresponds to the bonding portion in a plan view of the semiconductor device; and a first pressing process for inserting a pillar-shaped pressing jig, which includes a pressing portion at a lower end portion thereof, into the first guide hole, and pressing the bonding portion of the connection terminal to a side of the conductive plate with the pressing portion.

An apparatus having a substrate having first and second substrate contacts; a chip having a front-side chip contact and first and second back-side chip contacts, the front-side chip contact electrically connected to the first substrate contact; a chiplet having a chiplet contact electrically connected the first back-side chip contact; and a lead electrically connected to the second back-side chip contact and electrically connected to the second substrate contact.

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.

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 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.

In a power semiconductor device, an IGBT has a collector electrode bonded to a metal plate by a bonding material. A diode has a cathode electrode bonded to the metal plate by the bonding material. An interconnection member is bonded to an emitter electrode of the IGBT by a bonding material. The bonding material includes a bonding material and a bonding material. The bonding material is interposed between the IGBT and the interconnection member. The bonding material fills a through hole formed in the interconnection member. The bonding material reaches the bonding material and is therefore connected to the bonding material.

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.

In a power semiconductor device, an IGBT has a collector electrode bonded to a metal plate by a bonding material. A diode has a cathode electrode bonded to the metal plate by the bonding material. An interconnection member is bonded to an emitter electrode of the IGBT by a bonding material. The bonding material includes a bonding material and a bonding material. The bonding material is interposed between the IGBT and the interconnection member. The bonding material fills a through hole formed in the interconnection member. The bonding material reaches the bonding material and is therefore connected to the bonding material.

In a power semiconductor device, an IGBT has a collector electrode bonded to a metal plate by a bonding material. A diode has a cathode electrode bonded to the metal plate by the bonding material. An interconnection member is bonded to an emitter electrode of the IGBT by a bonding material. The bonding material includes a bonding material and a bonding material. The bonding material is interposed between the IGBT and the interconnection member. The bonding material fills a through hole formed in the interconnection member. The bonding material reaches the bonding material and is therefore connected to the bonding material.

In a power semiconductor device, an IGBT has a collector electrode bonded to a metal plate by a bonding material. A diode has a cathode electrode bonded to the metal plate by the bonding material. An interconnection member is bonded to an emitter electrode of the IGBT by a bonding material. The bonding material includes a bonding material and a bonding material. The bonding material is interposed between the IGBT and the interconnection member. The bonding material fills a through hole formed in the interconnection member. The bonding material reaches the bonding material and is therefore connected to the bonding material.