A semiconductor device includes a semiconductor chip having first and second main electrodes disposed on opposite surfaces of a silicon carbide substrate, first and second heat dissipation members disposed so as to sandwich the semiconductor chip, and joining members disposed between the first main electrode and the first heat dissipation member and between the second main electrode and the second heat dissipation member. At least one of the joining members is made of a lead-free solder having an alloy composition that contains 3.2 to 3.8 mass % Ag, 0.6 to 0.8 mass % Cu, 0.01 to 0.2 mass % Ni, x mass % Sb, y mass % Bi, 0.001 to 0.3 mass % Co, 0.001 to 0.2 mass % P, and a balance of Sn, where x and y satisfy relational expressions of x+2y11 mass %, x+14y42 mass %, and x5.1 mass %.

A method includes forming integrated circuits on a front side of a first chip, performing a backside grinding on the first chip to reveal a plurality of through-vias in the first chip, and forming a first bridge structure on a backside of the first chip using a damascene process. The bridge structure has a first bond pad, a second bond pad, and a conductive trace electrically connecting the first bond pad to the second bond pad. The method further includes bonding a second chip and a third chip to the first chip through face-to-back bonding. A third bond pad of the second chip is bonded to the first bond pad of the first chip. A fourth bond pad of the third chip is bonded to the second bond pad of the first chip.

A semiconductor device includes a semiconductor layer that includes a semiconductor substrate having a first thickness and has a main surface, a main surface electrode that is arranged at the main surface and has a second thickness less than the first thickness, and a pad electrode that is arranged on the main surface electrode and has a third thickness exceeding the first thickness.

A semiconductor package may include a first redistribution substrate, a first semiconductor chip and a second semiconductor chip, which are mounted on the first redistribution substrate and are horizontally spaced apart from each other, a first mold layer provided to surround the first and second semiconductor chips and expose bottom surfaces of the first and second semiconductor chips, a bridge chip mounted on the bottom surfaces of the first and second semiconductor chips, a second mold layer provided on the first redistribution substrate to embed the first and second semiconductor chips, the first mold layer, and the bridge chip, a second redistribution substrate disposed on the second mold layer, an upper package mounted on the second redistribution substrate, and a vertical connection structure provided adjacent to the first mold layer to connect the first and second redistribution substrates to each other. The first redistribution substrate may have a recess provided in a top surface of the first redistribution substrate, and the bridge chip may be disposed in the recess.

A semiconductor device includes a first die pad having a main surface, a second die pad having a second main surface, a first switching element connected to the first main surface, a second switching element connected to the second main surface, a first connecting member connecting the first main surface electrode of the first switching element to the second die pad, an encapsulation resin encapsulating the first switching element, the second switching element, the first die pad, the second die pad, and the first connecting member, and leads projecting out of one of the resin side surfaces of the encapsulation resin.

According to one embodiment, a method of manufacturing a semiconductor device includes forming a plurality of stacked bodies on a substrate, each of the stacked bodies includes a plurality of semiconductor chips. The method further includes forming a plurality of first wires on the stacked bodies. The first wires connecting the stacked bodies to each other. The method further includes forming a resin layer on the stacked bodies and the first wires, then thinning he resin layer until the first wires are exposed.

A semiconductor package includes a first package having a first semiconductor chip, a second semiconductor chip and a core member including a through-hole. At least one of the first and second semiconductor chips is disposed in the through-hole. An encapsulant is disposed in the through-hole. A first redistribution layer is disposed above the core member and is electrically connected to the first and second semiconductor chips. A second redistribution layer is disposed under the core member and electrically connects the first and second semiconductor chips with an external PCB. Core vias penetrate the core member and electrically connect the first and second redistribution layers. A second package is disposed on the first package and includes a third semiconductor chip. A plurality of first electrical connection structures electrically connects the first and second packages. A plurality of second electrical connection structures electrically connects the semiconductor package with the external PCB.

In an embodiment, a device includes: a die stack over and electrically connected to an interposer, the die stack including a topmost integrated circuit die including: a substrate having a front side and a back side opposite the front side, the front side of the substrate including an active surface; a dummy through substrate via (TSV) extending from the back side of the substrate at least partially into the substrate, the dummy TSV electrically isolated from the active surface; a thermal interface material over the topmost integrated circuit die; and a dummy connector in the thermal interface material, the thermal interface material surrounding the dummy connector, the dummy connector electrically isolated from the active surface of the topmost integrated circuit die.

In examples, a package comprises a semiconductor die having a device side and a bond pad on the device side, a conductive terminal exposed to an exterior of the package, and an electrical fuse. The electrical fuse comprises a conductive ball coupled to the bond pad, and a bond wire coupled to the conductive terminal. The bond wire is stitch-bonded to the conductive ball.

A package structure includes a protection structure, a circuit board, and a chip. The circuit board includes a first cabling layer, a dielectric layer, and a second cabling layer that are laminated. The protection structure is disposed inside the dielectric layer. The protection structure is configured to electrically connect the first cabling layer to the second cabling layer, and the chip is electrically connected to the first cabling layer or the second cabling layer. When the chip is short-circuited, the protection structure blows first.