A semiconductor device having an EMI shield layer and/or EMI shielding wires, and a manufacturing method thereof, are provided. In an example embodiment, the semiconductor device includes a semiconductor die, an EMI shield layer shielding the semiconductor die, and an encapsulating portion encapsulating the EMI shield layer. In another example embodiment, the semiconductor device further includes EMI shielding wires extending from the EMI shield layer and shielding the semiconductor die.

A semiconductor device having an EMI shield layer and/or EMI shielding wires, and a manufacturing method thereof, are provided. In an example embodiment, the semiconductor device includes a semiconductor die, an EMI shield layer shielding the semiconductor die, and an encapsulating portion encapsulating the EMI shield layer. In another example embodiment, the semiconductor device further includes EMI shielding wires extending from the EMI shield layer and shielding the semiconductor die.

The embodiments of the present disclosure relate to a power package module of multiple power chips and a method of manufacturing a power chip unit. The power package module of multiple power chips includes: a power chip unit including at least two power chips placed in parallel and a bonding part bonding the two power chips; and a substrate supporting the power chip unit and including a metal layer electronically connecting with the power chip unit, wherein the bonding part is made from an insulated material with cohesiveness, the distance of a gap between the two power chips placed in parallel is smaller than or equal to a preset width, and the bonding part is filled in the gap, insulatedly bonding the two power chips placed in parallel, and wherein side surfaces of the two power chips are naked except the portions contacting the bonding part.

The embodiments of the present disclosure relate to a power package module of multiple power chips and a method of manufacturing a power chip unit. The power package module of multiple power chips includes: a power chip unit including at least two power chips placed in parallel and a bonding part bonding the two power chips; and a substrate supporting the power chip unit and including a metal layer electronically connecting with the power chip unit, wherein the bonding part is made from an insulated material with cohesiveness, the distance of a gap between the two power chips placed in parallel is smaller than or equal to a preset width, and the bonding part is filled in the gap, insulatedly bonding the two power chips placed in parallel, and wherein side surfaces of the two power chips are naked except the portions contacting the bonding part.

According to various embodiments, a method for processing a substrate may include: processing a plurality of device regions in a substrate separated from each other by dicing regions, each device region including at least one electronic component; wherein processing each device region of the plurality of device regions includes: forming a recess into the substrate in the device region, wherein the recess is defined by recess sidewalls of the substrate, wherein the recess sidewalls are arranged in the device region; forming a contact pad in the recess to electrically connect the at least one electronic component, wherein the contact pad has a greater porosity than the recess sidewalls; and singulating the plurality of device regions from each other by dicing the substrate in the dicing region.

According to various embodiments, a method for processing a substrate may include: processing a plurality of device regions in a substrate separated from each other by dicing regions, each device region including at least one electronic component; wherein processing each device region of the plurality of device regions includes: forming a recess into the substrate in the device region, wherein the recess is defined by recess sidewalls of the substrate, wherein the recess sidewalls are arranged in the device region; forming a contact pad in the recess to electrically connect the at least one electronic component, wherein the contact pad has a greater porosity than the recess sidewalls; and singulating the plurality of device regions from each other by dicing the substrate in the dicing region.

A contact region for a semiconductor substrate is disclosed. Embodiments can include forming a seed metal layer having an exposed solder pad region on the semiconductor substrate and forming a first metal layer on the seed metal layer. In an embodiment, a solderable material, such as silver, can be formed on the exposed solder pad region prior to forming the first metal layer. Embodiments can include forming a solderable material on the exposed solder pad region after forming the first metal layer. Embodiments can also include forming a plating contact region on the seed metal layer, where the plating contact region allows for electrical conduction during a plating process.

A contact region for a semiconductor substrate is disclosed. Embodiments can include forming a seed metal layer having an exposed solder pad region on the semiconductor substrate and forming a first metal layer on the seed metal layer. In an embodiment, a solderable material, such as silver, can be formed on the exposed solder pad region prior to forming the first metal layer. Embodiments can include forming a solderable material on the exposed solder pad region after forming the first metal layer. Embodiments can also include forming a plating contact region on the seed metal layer, where the plating contact region allows for electrical conduction during a plating process.

A semiconductor device having an EMI shield layer and/or EMI shielding wires, and a manufacturing method thereof, are provided. In an example embodiment, the semiconductor device includes a semiconductor die, an EMI shield layer shielding the semiconductor die, and an encapsulating portion encapsulating the EMI shield layer. In another example embodiment, the semiconductor device further includes EMI shielding wires extending from the EMI shield layer and shielding the semiconductor die.

A semiconductor device having an EMI shield layer and/or EMI shielding wires, and a manufacturing method thereof, are provided. In an example embodiment, the semiconductor device includes a semiconductor die, an EMI shield layer shielding the semiconductor die, and an encapsulating portion encapsulating the EMI shield layer. In another example embodiment, the semiconductor device further includes EMI shielding wires extending from the EMI shield layer and shielding the semiconductor die.