The present invention relates to a power module that is capable of decreasing the number of components and assembling man-hours by applying a metal clip and performing an integrated soldering process and is capable of keeping a thickness of a soldering part constant and preventing movement of chips at the time of soldering by using a soldering jig.

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.

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.

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.

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.

The invention relates to a chip arrangement (10) and to a method for forming a contact connection (11) between a chip (18), in particular a power transistor or the like, and a conductor material track (14), the conductor material track being formed on a non-conductive substrate (12), the chip being arranged on the substrate or on a conductor material track (15), a silver paste (29) or a copper paste being applied to each of a chip contact surface (25) of the chip and the conductor material track (28), a contact conductor (30) being immersed into the silver paste or the copper paste on the chip contact surface and into the silver paste or the copper paste on the conductor material track, a solvent contained in the silver paste or the copper paste being at least partially vaporized by heating and the contact connection being formed by sintering the silver paste or the copper paste by means of laser energy.

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.

The present invention relates to a power module that is capable of decreasing the number of components and assembling man-hours by applying a metal clip and performing an integrated soldering process and is capable of keeping a thickness of a soldering part constant and preventing movement of chips at the time of soldering by using a soldering jig.