To provide a wire bonding method and a wire bonding device capable of stably forming a free air ball having a large ball diameter while suppressing oxidation of the free air ball, in addition to supply of an oxidation prevention gas from gas supply means (10) into an insertion portion (32), an oxidation prevention gas is supplied from a gas supply nozzle (40), which is arranged outside the insertion portion (32), so as to cover an inlet of the insertion portion (32). Under a state in which a leading end of a wire (74) is positioned inside the insertion portion (32), and in which a leading end of a capillary (3) is positioned outside the insertion portion (32), spark discharge is generated. With this, a free air ball (75) having a large ball diameter can be formed while suppressing oxidation of the free air ball (75) and stabilizing the free air ball (75).

A wire bonding machine window clamp assembly. The assembly includes a support plate adapted to support a leadframe strip. The assembly also includes a frame structure defining a central clamp opening adapted to expose a portion of the leadframe strip. The frame structure includes at least one elongate frame member having a first surface portion adapted to engage a top surface of the leadframe strip and a second surface portion adapted to engage upper surfaces of integrated circuit (IC) component stacks mounted on the leadframe strip.

An improvement is achieved in the performance of a semiconductor device. A second component mounting portion over which a first electronic component is mounted is connected to a coupling portion of a lead frame via a suspension lead. The suspension lead has a first portion between the second component mounting portion and the coupling portion and a second portion between the first portion and the coupling portion. The second portion has a third portion connected to the first portion and having a width smaller than a width of the first portion, a fourth portion connected to the first portion and having a width smaller than the width of the first portion, and a through hole (opening) located between the third and fourth portions. Each of the first, third, and fourth portions has the same thickness. After a sealing body is formed, a cutting jig is pressed against the suspension lead to cut the suspension lead.

A semiconductor device manufacturing method which enhances the reliability of a semiconductor device. The method includes a step in which a source wire is connected with a semiconductor chip while jigs are pressed against a die pad. The jigs each have a first support portion with a first projection and a second support portion with a second projection. Using the jigs thus structured, the first projection is made to contact with a first point on the front surface of the die pad and then the second projection is made to contact with a second point on the front surface of the die pad located closer to a suspension lead than the first point.

A semiconductor device manufacturing method which enhances the reliability of a semiconductor device. The method includes a step in which a source wire is connected with a semiconductor chip while jigs are pressed against a die pad. The jigs each have a first support portion with a first projection and a second support portion with a second projection. Using the jigs thus structured, the first projection is made to contact with a first point on the front surface of the die pad and then the second projection is made to contact with a second point on the front surface of the die pad located closer to a suspension lead than the first point.

A semiconductor device manufacturing method which enhances the reliability of a semiconductor device. The method includes a step in which a source wire is connected with a semiconductor chip while jigs are pressed against a die pad. The jigs each have a first support portion with a first projection and a second support portion with a second projection. Using the jigs thus structured, the first projection is made to contact with a first point on the front surface of the die pad and then the second projection is made to contact with a second point on the front surface of the die pad located closer to a suspension lead than the first point.

A method of connecting a wire with a terminal including a plurality of conductors is provided. The method includes: positioning the terminal by holding a part of the terminal between an upper side jig and a lower side jig; and connecting the wire and one of a plurality of conductors, which is exposed on a surface of the positioned terminal. The terminal includes a laminate structure that includes an insulator interposed between a first conductor and a second conductor. The part of the terminal held in the positioning of the terminal includes a pressure receiving area, where a contact area between the upper side jig and an upper surface of the terminal and a contact area between the lower side jig and a lower surface of the terminal overlap. The laminate structure exists outside of the pressure receiving area, and does not exist in the pressure receiving area.

A method of connecting a wire with a terminal including a plurality of conductors is provided. The method includes: positioning the terminal by holding a part of the terminal between an upper side jig and a lower side jig; and connecting the wire and one of a plurality of conductors, which is exposed on a surface of the positioned terminal. The terminal includes a laminate structure that includes an insulator interposed between a first conductor and a second conductor. The part of the terminal held in the positioning of the terminal includes a pressure receiving area, where a contact area between the upper side jig and an upper surface of the terminal and a contact area between the lower side jig and a lower surface of the terminal overlap. The laminate structure exists outside of the pressure receiving area, and does not exist in the pressure receiving area.

To provide a wire bonding method and a wire bonding device capable of stably forming a free air ball having a large ball diameter while suppressing oxidation of the free air ball, in addition to supply of an oxidation prevention gas from gas supply means (10) into an insertion portion (32), an oxidation prevention gas is supplied from a gas supply nozzle (40), which is arranged outside the insertion portion (32), so as to cover an inlet of the insertion portion (32). Under a state in which a leading end of a wire (74) is positioned inside the insertion portion (32), and in which a leading end of a capillary (3) is positioned outside the insertion portion (32), spark discharge is generated. With this, a free air ball (75) having a large ball diameter can be formed while suppressing oxidation of the free air ball (75) and stabilizing the free air ball (75).

On the assumption that a pair of hanging parts is provided in a lead frame and a clip includes a main body part and a pair of extension parts, the pair of the extension parts is mounted and supported on the pair of the hanging parts. Accordingly, the clip is mounted on a lead (one point) and the pair of the hanging parts (two points), and the clip is supported by the three points.