An integrated circuit IC package with one or more pins protruding from the IC package for electrically connecting the IC package with a printed circuit board PCB is presented. The IC package has a first die with a first electronic component, a second die with a second electronic component, and a conductive plate having a plane surface. The first electronic component may be a semiconductor power device and the second electronic component may be a control circuit. The plane surface of the conductive plate is electrically connected to both a plane surface of the first die and one or more pins such that an electrical connection is established between the first die and the one or more pins. The second die may be arranged on top of the conductive plate. Alternatively, a third die with a third electronic component may be arranged on top of the conductive plate.

A semiconductor device has a plurality of small-sized semiconductor chips disposed between an insulated circuit board having a conductive pattern and a terminal. The semiconductor device exhibits a high accuracy in positioning the semiconductor chips. The semiconductor device includes an insulated circuit board having a conductive pattern, a first semiconductor chip with a rectangular shape connected to the conductive pattern through a first joining material, a second semiconductor chip with a rectangular shape, disposed on the conductive pattern separated from the first semiconductor chip and connected to the conductive pattern through a second joining material, and a terminal disposed above the first semiconductor chip and the second semiconductor chip, connected to the first semiconductor chip through a third joining material, and connected to the second semiconductor chip through a fourth joining material. The terminal has a through-hole above a place between the first semiconductor chip and the second semiconductor chip.

A semiconductor device has a semiconductor element provided with a functional surface on which a functional circuit is formed and with a back surface facing in the opposite direction to the functional surface, while also having a lead supporting the semiconductor element and electrically connected to the semiconductor element, and a resin package covering at least a portion of the semiconductor element and the lead. The semiconductor element has a functional surface side electrode formed on the functional surface and equipped with a functional surface side raised part that projects in the direction in which the functional surface faces. The functional surface side raised part of the functional surface side electrode is joined to the lead by solid state bonding.

A semiconductor device having a leadframe including a pad (101) surrounded by elongated leads (110) spaced from the pad by a gap (113) and extending to a frame, the pad and the leads having a first thickness (115) and a first and an opposite and parallel second surface; the leads having a first portion (112) of first thickness near the gap and a second portion (111) of first thickness near the frame, and a zone (114) of reduced second thickness (116) between the first and second portions; the second surface (112a) of the first lead portions is coplanar with the second surface (111a) of the second portions. A semiconductor chip (220) with a terminal is attached the pad. A metallic wire connection (230) from the terminal to an adjacent lead includes a stitch bond (232) attached to the first surface of the lead.

A semiconductor device has a semiconductor element provided with a functional surface on which a functional circuit is formed and with a back surface facing in the opposite direction to the functional surface, while also having a lead supporting the semiconductor element and electrically connected to the semiconductor element, and a resin package covering at least a portion of the semiconductor element and the lead. The semiconductor element has a functional surface side electrode formed on the functional surface and equipped with a functional surface side raised part that projects in the direction in which the functional surface faces. The functional surface side raised part of the functional surface side electrode is joined to the lead by solid state bonding.

A semiconductor device has a semiconductor element provided with a functional surface on which a functional circuit is formed and with a back surface facing in the opposite direction to the functional surface, while also having a lead supporting the semiconductor element and electrically connected to the semiconductor element, and a resin package covering at least a portion of the semiconductor element and the lead. The semiconductor element has a functional surface side electrode formed on the functional surface and equipped with a functional surface side raised part that projects in the direction in which the functional surface faces. The functional surface side raised part of the functional surface side electrode is joined to the lead by solid state bonding.

A metal base substrate of the present invention includes a copper plate made of copper, a metal layer that is formed on the copper plate and is made of a metal different from the copper, an insulating resin sheet that is formed by bonding a sheet made of an insulating resin onto the metal layer, and a circuit pattern formed on the insulating resin sheet.

A die attach structure, metal layer stack, and semiconductor package are disclosed. For one example, a die attach structure is provided. The die attach structure may include a base structure comprising or consisting of aluminum or an aluminum alloy, at least one adhesion promotion layer directly on the base structure and comprising or consisting of ZnCr or ZnV, and a copper layer on the at least one adhesion promotion layer.