In a method for manufacturing a semiconductor device, a plurality of first provisional fixing portions are supplied on a front surface of a substrate such that the plurality of first provisional fixing portions are spaced from each other and thus dispersed. A first solder layer processed into a plate to be a first soldering portion is disposed in contact with the plurality of first provisional fixing portions. A semiconductor chip is disposed on the first solder layer. In addition a conductive member in the form of a flat plate is disposed thereon via a second provisional fixing portion and a second solder layer. A reflow process is performed to solder the substrate, the semiconductor chip and the conductive member together.

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 packaged semiconductor device includes a carrier having a die attach surface, a semiconductor die mounted on the die attach surface and comprising first and second conductive terminals disposed on an upper side, a first clip that extends over the semiconductor die and is electrically connected to the first conductive terminal, a second clip that extends over the semiconductor die and is electrically connected to the second conductive terminal, and an electrically insulating encapsulant body that encapsulates the semiconductor die. An outer end of the first clip is exposed from the encapsulant body and provides a point of external electrical contact for the first conductive terminal. An outer end of the second clip is exposed from the same or a different side face of the encapsulant body as the first clip and provides a point of external electrical contact for the second conductive terminal.

A packaged semiconductor device includes a carrier having a die attach surface, a semiconductor die mounted on the die attach surface and comprising first and second conductive terminals disposed on an upper side, a first clip that extends over the semiconductor die and is electrically connected to the first conductive terminal, a second clip that extends over the semiconductor die and is electrically connected to the second conductive terminal, and an electrically insulating encapsulant body that encapsulates the semiconductor die. An outer end of the first clip is exposed from the encapsulant body and provides a point of external electrical contact for the first conductive terminal. An outer end of the second clip is exposed from the same or a different side face of the encapsulant body as the first clip and provides a point of external electrical contact for the second conductive terminal.

Aspects of the present disclosure relate to a molded electronic package and a method for manufacturing the same. The molded electronic package includes a first substrate, a second substrate, an electronic component arranged on the first substrate, a spring member arranged between the second substrate and the electronic component, the spring member including a first contact portion being fixated relative to the second substrate, and a second contact portion physically contacting the electronic component, and a body of solidified molding compound configured to encapsulate the electronic component and the spring member and to mutually fixate the first substrate, the second substrate, the electronic component and the spring member. The second substrate and the spring member are electrically and/or thermally conductive.

Aspects of the present disclosure relate to a molded electronic package and a method for manufacturing the same. The molded electronic package includes a first substrate, a second substrate, an electronic component arranged on the first substrate, a spring member arranged between the second substrate and the electronic component, the spring member including a first contact portion being fixated relative to the second substrate, and a second contact portion physically contacting the electronic component, and a body of solidified molding compound configured to encapsulate the electronic component and the spring member and to mutually fixate the first substrate, the second substrate, the electronic component and the spring member. The second substrate and the spring member are electrically and/or thermally conductive.

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.

A semiconductor device and method is disclosed. In one embodiment, the semiconductor device comprises a semiconductor die comprising a first surface and a second surface opposite to the first surface, a first metallization layer disposed on the first surface of the semiconductor die, a first solder layer disposed on the first metallization layer, wherein the first solder layer contains the compound Sn/Sb, and a first contact member comprising a Cu-based base body and a Ni-based layer disposed on a main surface of the Cu-based base body, wherein the first contact member is connected with the Ni-based layer to the first solder layer.