In described examples, a microelectronic device includes a microelectronic die with a die attach surface. The microelectronic device further includes a nanoparticle layer coupled to the die attach surface. The nanoparticle layer may be in direct contact with the die attach surface, or may be coupled to the die attach surface through an intermediate layer, such as an adhesion layer or a contact metal layer. The nanoparticle layer includes nanoparticles having adjacent nanoparticles adhered to each other. The microelectronic die is attached to a package substrate by a die attach material. The die attach material extends into the nanoparticle layer and contacts at least a portion of the nanoparticles.

An object of the invention is to manufacture a semiconductor module small. A metal wire (212) connecting a control electrode (101) and a control terminal (21) rises to form a first angle (θ1) from the control electrode (101) toward a first conductive portion (202), gradually goes in substantially parallel to the first conductive portion (202) as the metal wire approaches the first conductive portion (202), and is connected to the control terminal (21) to form a second angle (θ2) smaller than the first angle (θ1).

An object of the invention is to manufacture a semiconductor module small. A metal wire (212) connecting a control electrode (101) and a control terminal (21) rises to form a first angle (θ1) from the control electrode (101) toward a first conductive portion (202), gradually goes in substantially parallel to the first conductive portion (202) as the metal wire approaches the first conductive portion (202), and is connected to the control terminal (21) to form a second angle (θ2) smaller than the first angle (θ1).

A semiconductor device includes a first bus bar, a second bus bar, a first terminal, and a second terminal. The first terminal includes one or more planar portions, and the second terminal includes one or more planar portions. The one or more planar portions of the first terminal and the one or more planar portions of the second terminal are arranged parallel to and opposite each other. One of the first bus bar and the second bus bar covers a gap between a portion of the first terminal connected to the first bus bar and a portion of the second terminal connected to the second bus bar in plan view.

A semiconductor device according to the present embodiment includes a circuit board comprising a plurality of electrodes provided on a first surface, a first resin layer provided on the first surface around the electrodes, and a second resin layer provided on the first resin layer. A first semiconductor chip is connected to a first one of the electrodes. A second semiconductor chip is provided above the first semiconductor chip, being larger than the first semiconductor chip, and is connected to a second one of the electrodes via a metal wire. A third resin layer is provided between the first semiconductor chip and the second semiconductor chip and between the second resin layer and the second semiconductor chip, and covers the first semiconductor chip.

A semiconductor device according to the present embodiment includes a circuit board comprising a plurality of electrodes provided on a first surface, a first resin layer provided on the first surface around the electrodes, and a second resin layer provided on the first resin layer. A first semiconductor chip is connected to a first one of the electrodes. A second semiconductor chip is provided above the first semiconductor chip, being larger than the first semiconductor chip, and is connected to a second one of the electrodes via a metal wire. A third resin layer is provided between the first semiconductor chip and the second semiconductor chip and between the second resin layer and the second semiconductor chip, and covers the first semiconductor chip.

A semiconductor device according to the present embodiment includes a wiring substrate having a wiring layer. A first semiconductor chip is provided above the wiring substrate. A metallic wire connects the first semiconductor chip and the wiring substrate to each other. A silicon chip is provided above the first semiconductor chip and covers above the metallic wire. A resin layer seals the first semiconductor chip and the silicon chip, and the metallic wire. The silicon chip is insulated from the wiring substrate.

A semiconductor device according to the present embodiment includes a wiring substrate having a wiring layer. A first semiconductor chip is provided above the wiring substrate. A metallic wire connects the first semiconductor chip and the wiring substrate to each other. A silicon chip is provided above the first semiconductor chip and covers above the metallic wire. A resin layer seals the first semiconductor chip and the silicon chip, and the metallic wire. The silicon chip is insulated from the wiring substrate.

The semiconductor device includes a semiconductor element, a plurality of terminal electrodes, internal wiring, and a sealing material. The semiconductor element is mounted on a circuit pattern provided on an insulating substrate. The plurality of terminal electrodes are provided on a case in which the insulating substrate and the semiconductor element are contained. The internal wiring connects the semiconductor element and the plurality of terminal electrodes. The sealing material fills a space in the case. The internal wiring includes a plurality of circuit patterns, a plurality of metal blocks, and metal wire. The plurality of metal blocks are electrically connected to the respective circuit patterns. The metal wire connects the plurality of metal blocks and is bonded to the plurality of metal blocks at positions closer to an upper surface of the sealing material than surfaces of the plurality of circuit patterns.

The semiconductor device includes a semiconductor element, a plurality of terminal electrodes, internal wiring, and a sealing material. The semiconductor element is mounted on a circuit pattern provided on an insulating substrate. The plurality of terminal electrodes are provided on a case in which the insulating substrate and the semiconductor element are contained. The internal wiring connects the semiconductor element and the plurality of terminal electrodes. The sealing material fills a space in the case. The internal wiring includes a plurality of circuit patterns, a plurality of metal blocks, and metal wire. The plurality of metal blocks are electrically connected to the respective circuit patterns. The metal wire connects the plurality of metal blocks and is bonded to the plurality of metal blocks at positions closer to an upper surface of the sealing material than surfaces of the plurality of circuit patterns.