A method for manufacturing a semiconductor device includes: fixing a semiconductor chip to a first part of a leadframe; bonding one connector member to a first terminal of the semiconductor chip, a second terminal of the semiconductor chip, a second part of the leadframe, and a third part of the leadframe; forming a sealing member; and separating a first conductive part of the connector member and a second conductive part of the connector member by removing at least a section of the portion of the connector member exposed outside the sealing member, the first conductive part being bonded to the first terminal and the second part, the second conductive part being bonded to the second terminal and the third part.

A semiconductor device includes: a semiconductor chip; and an Ag fired cap formed so as to cover a source pad electrode formed on the semiconductor chip. The semiconductor chip is disposed on a first substrate electrode, and one end of a Cu wire is bonded onto the Ag fired cap by means of an ultrasonic wave. There is provided a semiconductor device capable of improving a power cycle capability, and a fabrication method of such a semiconductor device.

A semiconductor device includes: a semiconductor chip; and an Ag fired cap formed so as to cover a source pad electrode formed on the semiconductor chip. The semiconductor chip is disposed on a first substrate electrode, and one end of a Cu wire is bonded onto the Ag fired cap by means of an ultrasonic wave. There is provided a semiconductor device capable of improving a power cycle capability, and a fabrication method of such a semiconductor device.

A packaged semiconductor device includes a carrier having a die attach surface, a semiconductor die mounted on the die attach surface and comprising first and second conductive terminals disposed on an upper side, a first clip that extends over the semiconductor die and is electrically connected to the first conductive terminal, a second clip that extends over the semiconductor die and is electrically connected to the second conductive terminal, and an electrically insulating encapsulant body that encapsulates the semiconductor die. An outer end of the first clip is exposed from the encapsulant body and provides a point of external electrical contact for the first conductive terminal. An outer end of the second clip is exposed from the same or a different side face of the encapsulant body as the first clip and provides a point of external electrical contact for the second conductive terminal.

A semiconductor module includes: a semiconductor chip including a main electrode; a connection conductor electrically connected to the main electrode; a housing portion surrounding the semiconductor chip and at least a part of the connection conductor; a sealing material filled in a space surrounded by the housing portion; and a connection unit fixed to the housing portion. The conductive portion, which is a part of the connection conductor, is exposed from a surface of the sealing material. The connection unit includes: a connection terminal joined to the conductive portion of the connection conductor; and a support that is formed separately from the housing portion and supports the connection terminal.

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 stack of electrical components has a first electrical component having a first surface, a second surface that is opposite to the first surface and a side surface that is located between the first surface and the second surface; a second electrical component having a third surface on which the first electrical component is mounted, the third surface facing the second surface and forming a corner portion between the third surface and the side surface; an adhesive layer that bonds the first electrical component to the second electrical component, the adhesive layer has a first portion that is located between the second and third surface and a second portion that is made of a same material as the first portion and that fills the corner portion; and a conductive layer that extends on a side of the side surface, curves along the second portion and extends to the third surface.

Provided is an apparatus for attaching semiconductor parts. The apparatus includes a substrate loading unit, at least one semiconductor part loader, a first vision examination unit, at least one semiconductor part picker, at least one adhesive hardening unit, and a substrate unloading unit, wherein the substrate loading unit supplies a substrate on which semiconductor units are arranged, the at least one semiconductor part loader supplies semiconductor parts, the first vision examination unit examines arrangement states of the semiconductor units, the at least one semiconductor part picker mounts semiconductor parts in the semiconductor units, the at least one adhesive hardening unit hardens and attaches adhesives interposed between the semiconductor units and the semiconductor parts, and the substrate unloading unit releases the substrate on which semiconductor parts are mounted. The adhesive hardening units restrictively transmit a heat source only to at least one semiconductor unit, which is to be hardened.

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.