A method for manufacturing a semiconductor device includes preparing a semiconductor chip having a back surface made of a Cu layer. The semiconductor chip is bonded to a die pad having a front surface made of Cu via a bonding material containing a dissimilar metal not containing Cu and Pb and a Bi-based material so that the Cu layer and the bonding material come into contact with each other. After the bonding, the die pad is then heat-treated.

A method for manufacturing a semiconductor device includes preparing a semiconductor chip having a back surface made of a Cu layer. The semiconductor chip is bonded to a die pad having a front surface made of Cu via a bonding material containing a dissimilar metal not containing Cu and Pb and a Bi-based material so that the Cu layer and the bonding material come into contact with each other. After the bonding, the die pad is then heat-treated.

A method for manufacturing a semiconductor device includes preparing a semiconductor chip having a back surface made of a Cu layer. The semiconductor chip is bonded to a die pad having a front surface made of Cu via a bonding material containing a dissimilar metal not containing Cu and Pb and a Bi-based material so that the Cu layer and the bonding material come into contact with each other. After the bonding, the die pad is then heat-treated.

A method for manufacturing a semiconductor device includes preparing a semiconductor chip having a back surface made of a Cu layer. The semiconductor chip is bonded to a die pad having a front surface made of Cu via a bonding material containing a dissimilar metal not containing Cu and Pb and a Bi-based material so that the Cu layer and the bonding material come into contact with each other. After the bonding, the die pad is then heat-treated.

A semiconductor device including a die pad having a front surface made of Cu; a semiconductor chip disposed so as to be opposed to the front surface of the die pad; a bonding layer provided between the die pad and the semiconductor chip; and a plurality of leads disposed around the die pad, wherein the die pad and the plurality of leads make up a lead frame in cooperation with each other, a cavity is fabricated on the surface of the plurality of leads, and a projecting portion is fabricated next to the cavity.

A semiconductor device including a die pad having a front surface made of Cu; a semiconductor chip disposed so as to be opposed to the front surface of the die pad; a bonding layer provided between the die pad and the semiconductor chip; and a plurality of leads disposed around the die pad, wherein the die pad and the plurality of leads make up a lead frame in cooperation with each other, a cavity is fabricated on the surface of the plurality of leads, and a projecting portion is fabricated next to the cavity.

A palladium coated copper wire for ball bonding includes a core formed of pure copper or copper alloy having a purity of 98% by mass or more, and a palladium draw coated layer coated on the core. The copper wire has a diameter of 10 to 25 m, and the palladium drawn layer contains sulfur, phosphorus, boron or carbon.

A palladium coated copper wire for ball bonding includes a core formed of pure copper or copper alloy having a purity of 98% by mass or more, and a palladium draw coated layer coated on the core. The copper wire has a diameter of 10 to 25 m, and the palladium drawn layer contains sulfur, phosphorus, boron or carbon.