Implementations of semiconductor packages may include a metallic baseplate, a first insulative layer coupled to the metallic baseplate, a first plurality of metallic traces, each metallic trace of the first plurality of metallic traces coupled to the electrically insulative, one or more semiconductor devices coupled to each one of the first plurality of metallic traces, a second plurality of metallic traces coupled to the one or more semiconductor devices, and a second insulative layer coupled to the metallic traces of the second plurality of metallic traces.

A semiconductor device includes a device carrier, a first semiconductor chip mounted on the device carrier and a second semiconductor chip mounted on the device carrier. Further, the semiconductor device includes a first contact clip bonded to a first electrode of the first semiconductor chip, a second contact clip bonded to a first electrode of the second semiconductor chip and an insulating connector configured to hold the first contact clip and the second contact clip together.

A semiconductor package according to an embodiment of the present invention Includes: a lead frame comprising a pad and a lead spaced apart from the pad by a regular interval; a semiconductor chip adhered on the pad; and a clip structure electrically connecting the semiconductor chip and the lead, wherein an one end of the clip structure connected to the semiconductor chip inclines with respect to upper surfaces of chip pads of the semiconductor chip and is adhered to the upper surfaces of the chip pads of the semiconductor chip. A semiconductor package according to another embodiment of the present invention includes: a semiconductor chip comprising one or more chip pads; one or more leads electrically connected to the chip pads; and a sealing member covering the semiconductor chip, wherein an one end of the lead inclines with respect to one surface of the chip pad and is adhered to the chip pad and an other end of the lead is exposed to the outside of the sealing member.

The present disclosure is directed to a high throughput clip bonding tool or system which is flexible and easily adapts to different clip bond pitches or sizes. The clip bonding system may be an integrated system with various modules, including a clip singulation module, a feeder module, a transfer module and a clip attach module within a shared footprint. For example, an incoming clip source may be fed to the clip singulation module for clip singulation before the singulated clips are transferred by the feeder and transfer modules to a clip presentation area for clip alignment before pickup. A pickup tool of the clip attach module is configured to facilitate pickup and attachment of clips onto the semiconductor packages to be clip bonded. For example, the pickup head is programmable to facilitate clip bonding process of different applications which may require clips and packages with different sizes.

An inventive semiconductor device includes: a semiconductor chip including an integrated circuit; a plurality of electrode pads provided on the semiconductor chip and connected to the integrated circuit; a rewiring to which the electrode pads are electrically connected together, the rewiring being exposed on an outermost surface of the semiconductor chip and having an exposed surface area greater than the total area of the electrode pads; and a resin package which seals the semiconductor chip.

A semiconductor device includes a semiconductor package including an n-type channel normally-off transistor, a normally-on transistor, a first diode, and a Zener diode; a first terminal provided on the semiconductor package; a plurality of second terminals provided on the semiconductor package, and the second terminals being lined up in a first direction; a third terminal provided on the semiconductor package; a plurality of fourth terminals provided on the semiconductor package; and a plurality of fifth terminals provided on the semiconductor package, and the fifth terminals being lined up in the first direction.

In one implementation, a semiconductor package includes a control transistor and a sync transistor of a power converter switching stage attached over a first patterned conductive carrier, as well as a magnetic material situated over leads of the first patterned conductive carrier. The semiconductor package also includes a second patterned conductive carrier attached over the first patterned conductive carrier, the control and sync transistors, and the magnetic material. Leads of the second patterned conductive carrier overlie the magnetic material and are coupled to the leads of the first patterned conductive carrier so as to form windings of an output inductor for the power converter switching stage, the output inductor being integrated into the semiconductor package.

A signal block and a double-faced cooling power module that uses the signal block is provided. The signal block includes a plurality of signal clips that are formed in a ribbon shape to connect a first signal pad formed on a semiconductor chip and a second signal pad formed on a signal lead frame. An insulator fixes the position of the plurality of signal clips while spacing the signal clips apart from each other.

In a semiconductor device, a first skirt portion molded from a first mold resin and a second skirt portion molded from a second mold resin are provided on a heat dissipating surface of a lead frame. Also, a thinly-molded portion is molded integrally with the second skirt portion from the second mold resin. According to this kind of configuration, adhesion between the thinly-molded portion and lead frame is high, and the semiconductor device with excellent heat dissipation and insulation is obtained.

In a semiconductor device, a first skirt portion molded from a first mold resin and a second skirt portion molded from a second mold resin are provided on a heat dissipating surface of a lead frame. Also, a thinly-molded portion is molded integrally with the second skirt portion from the second mold resin. According to this kind of configuration, adhesion between the thinly-molded portion and lead frame is high, and the semiconductor device with excellent heat dissipation and insulation is obtained.