A semiconductor device includes a metal layer disposed above a transistor on a first substrate. The metal layer includes a first region extending in a first direction and a second region that has a width in the first direction smaller than the first region and protrudes from the first region in a second direction, and has a first corner portion having an angle larger than 180? as viewed in a third direction between a proximal end portion of the second region and the first region. The metal layer includes a first portion that is disposed within the first region and has a lower surface at a first height, and a second portion that is disposed within the second region and has a lower surface at a second height lower than the first height. A step present at a boundary between the first portion and the second portion is disposed away from an edge of the second region at a first position near the first corner portion in the second direction and adjacent to the edge of the second region at a second position away from the first corner portion than the first position.

A package includes a circuit that includes at least one active area and at least one secondary device area, a support configured to support the circuit, and a die attach material. The circuit being mounted on the support using the die attach material and the die attach material including at least one channel configured to allow gases generated during curing of the die attach material to be released from the die attach material.

A method includes bonding a first wafer to a second wafer, with a first plurality of dielectric layers in the first wafer and a second plurality of dielectric layers in the second wafer bonded between a first substrate of the first wafer and a second substrate in the second wafer. A first opening is formed in the first substrate, and the first plurality of dielectric layers and the second wafer are etched through the first opening to form a second opening. A metal pad in the second plurality of dielectric layers is exposed to the second opening. A conductive plug is formed extending into the first and the second openings.

A method for preparing a semiconductor device includes providing an integrated circuit die having a bond pad. The bond pad includes aluminum (Al). The method also includes etching a top portion of the bond pad to form a recess, and bonding a wire bond to the recess in the bond pad. The wire bond includes copper (Cu).

A packaged semiconductor device includes a first bond pad, a second bond pad, a first bond wire that includes a first end bonded to the first bond pad and a second end bonded to the second bond pad, and a second bond wire that includes a first end that is electrically connected to the first bond pad and a second end that is electrically connected to the second bond pad. The first end of the second bond wire is bonded to the first end of the first bond wire. A method of bonding a bond wire includes bonding a first end of a first bond wire to a contact surface of a first bond pad and bonding a first end of a second bond wire to a surface of the first end of the first bond wire.

A semiconductor package according to the exemplary embodiments of the disclosure includes a base substrate including a base bonding pad, a first semiconductor chip disposed on the base substrate, a first adhesive layer provided under the first semiconductor chip, a first bonding pad provided in a bonding region on an upper surface of the first semiconductor chip, a first bonding wire interconnecting the base bonding pad and the first bonding pad, and a crack preventer provided in a first region at the upper surface of the first semiconductor chip. The crack preventer includes dummy pads provided at opposite sides of the first region and a dummy wire interconnecting the dummy pads.

A semiconductor device includes an integrated circuit die having bond pads and a bond wires. The bond wires are connected to respective ones of the bond pads by a ball bond. An area of contact between the ball bond and the bond pad has a predetermined shape that is non-circular and includes at least one axis of symmetry. A ratio of the ball bond length to the ball bond width may be equal to a ratio of the bond pad length to the bond pad width.

An integrated semiconductor device having a metallic element formed between a capacitor with and a doped region.

A semiconductor device includes a semiconductor substrate having a bonding pad, and a first dielectric layer disposed over the semiconductor substrate. A portion of the bonding pad is exposed by the first dielectric layer. The semiconductor device also includes a metal oxide layer disposed over the portion of the bonding pad, and a wire bond penetrating through the metal oxide layer to bond to the bonding pad. The portion of the bonding pad is entirely covered by the metal oxide layer and the wire bond.

A semiconductor device includes a MOSFET including a PN junction diode. A unipolar device is connected in parallel to the MOSFET and has two terminals. A first wire connects the PN junction diode to one of the two terminals of the unipolar device. A second wire connects the one of the two terminals of the unipolar device to an output line, so that the output line is connected to the MOSFET and the unipolar device via the first wire and the second wire. In one embodiment the connection of the first wire to the diode is with its anode, and in another the connection is with the cathode.