An embodiment related to a stacked package is disclosed. The stacked package includes a conductive gang with gang legs electrically coupling a second component stacked over a first die to a package substrate. The first die is mounted over a die attach region of the package substrate and electrically coupled to the package substrate.

An embodiment related to a stacked package is disclosed. The stacked package includes a conductive gang with gang legs electrically coupling a second component stacked over a first die to a package substrate. The first die is mounted over a die attach region of the package substrate and electrically coupled to the package substrate.

A semiconductor device includes: a carrier having a die pad and a contact; a semiconductor die having opposing first and second main sides and being attached to the die pad by a first solder joint such that the second main side faces the die pad; and a contact clip having a first contact region and a second contact region. The first contact is attached to the first main side by a second solder joint. The second contact region is attached to the contact by a third solder joint. The first contact region has a convex shape facing towards the first main side such that a distance between the first main side and the first contact region increases from a base of the convex shape towards an edge of the first contact region. The base runs along a line that is substantially perpendicular to a longitudinal axis of the contact clip.

A first alignment resin (4) is formed in an annular shape on an electrode (3) of an insulating substrate (1). First plate solder (5) having a thickness thinner than that of the first alignment resin (4) is arranged on the electrode (3) on an inner side of the annular shape of the first alignment resin (4). A semiconductor chip (6) is arranged on the first plate solder (5). The first plate solder (5) is made to melt to bond a lower surface of the semiconductor chip (6) to the electrode (3).

A semiconductor package includes a leadframe including a die pad and a plurality of lead terminals. A vertical semiconductor device is attached on a first side by a die attach material to the die pad. A first clip is on the first vertical device that is solder connected to a terminal of the first vertical device on a second side opposite to the first side providing a first solder bonded interface, wherein the first clip is connected to at least a first of the lead terminals. The first solder bonded interface includes a first protruding surface standoff therein that extends from a surface on the second side of the first vertical device to physically contact the first clip.

In a general aspect, an apparatus can include a leadframe. The apparatus can also include a first semiconductor die coupled with a first side of a first portion of the leadframe, and a second semiconductor die coupled with a second side of the first portion of the leadframe. The apparatus can also include a first substrate coupled with a second side of the first semiconductor die. The first substrate can be further coupled with a first side of a second portion of the leadframe and a first side of a third portion of the leadframe. The apparatus can also further include a second substrate coupled with a second side of the second semiconductor die. The second substrate can be further coupled with a second side of the second portion of the leadframe and a second side of the third portion of the leadframe.

In a general aspect, an apparatus can include a leadframe. The apparatus can also include a first semiconductor die coupled with a first side of a first portion of the leadframe, and a second semiconductor die coupled with a second side of the first portion of the leadframe. The apparatus can also include a first substrate coupled with a second side of the first semiconductor die. The first substrate can be further coupled with a first side of a second portion of the leadframe and a first side of a third portion of the leadframe. The apparatus can also further include a second substrate coupled with a second side of the second semiconductor die. The second substrate can be further coupled with a second side of the second portion of the leadframe and a second side of the third portion of the leadframe.

A method for fabricating a semiconductor device with a heterogeneous solder joint includes: providing a semiconductor die; providing a coupled element; and soldering the semiconductor die to the coupled element with a first solder joint. The first solder joint includes: a solder material including a first metal composition; and a coating including a second metal composition, different from the first metal composition, the coating at least partially covering the solder material. The second metal composition has a greater stiffness and/or a higher melting point than the first metal composition.

A semiconductor device including a lead frame, a die attached to the lead frame using a first solder, and a clip attached to the die using a second solder is provided. The clip includes a notch arranged for a check of the excess of the second solder.

A semiconductor device including a lead frame, a die attached to the lead frame using a first solder, and a clip attached to the die using a second solder is provided. The clip includes a notch arranged for a check of the excess of the second solder.