A method for fabricating a semiconductor die package includes: providing a semiconductor transistor die, the semiconductor transistor die having a first contact pad on a first lower main face and/or a second contact pad on an upper main face; fabricating a frontside electrical conductor onto the second contact pad and a backside electrical conductor onto the first contact pad; and applying an encapsulant covering the semiconductor die and at least a portion of the electrical conductor, wherein the frontside electrical conductor and/or the backside electrical conductor is fabricated by laser-assisted structuring of a metallic structure.

A printed circuit board (PCB) includes an insulating layer with an upper surface and a lower surface opposite to the upper surface; a first conductive pattern on the upper surface of the insulating layer; a second conductive pattern on the lower surface of the insulating layer; an aluminum pattern that covers at least a portion of an upper surface of the first conductive pattern; and a first passivation layer that covers at least a portion of sides of the first conductive pattern and that prevents diffusion into the first conductive pattern.

A semiconductor die package includes a semiconductor transistor die having a contact pad on an upper main face. The semiconductor die package also includes an electrical conductor disposed on the contact pad and fabricated by laser-assisted structuring of a metallic material, and an encapsulant covering the semiconductor die and at least a portion of the electrical conductor.

A method for fabricating a semiconductor die package includes: providing a semiconductor transistor die, the semiconductor transistor die having a first contact pad on a first lower main face and/or a second contact pad on an upper main face; fabricating a frontside electrical conductor onto the second contact pad and a backside electrical conductor onto the first contact pad; and applying an encapsulant covering the semiconductor die and at least a portion of the electrical conductor, wherein the frontside electrical conductor and/or the backside electrical conductor is fabricated by laser-assisted structuring of a metallic structure.

A printed circuit board (PCB) includes an insulating layer with an upper surface and a lower surface opposite to the upper surface; a first conductive pattern on the upper surface of the insulating layer; a second conductive pattern on the lower surface of the insulating layer; an aluminum pattern that covers at least a portion of an upper surface of the first conductive pattern; and a first passivation layer that covers at least a portion of sides of the first conductive pattern and that prevents diffusion into the first conductive pattern.

A printed circuit board (PCB) includes an insulating layer with an upper surface and a lower surface opposite to the upper surface; a first conductive pattern on the upper surface of the insulating layer; a second conductive pattern on the lower surface of the insulating layer; an aluminum pattern that covers at least a portion of an upper surface of the first conductive pattern; and a first passivation layer that covers at least a portion of sides of the first conductive pattern and that prevents diffusion into the first conductive pattern.

A printed circuit board (PCB) includes an insulating layer with an upper surface and a lower surface opposite to the upper surface; a first conductive pattern on the upper surface of the insulating layer; a second conductive pattern on the lower surface of the insulating layer; an aluminum pattern that covers at least a portion of an upper surface of the first conductive pattern; and a first passivation layer that covers at least a portion of sides of the first conductive pattern and that prevents diffusion into the first conductive pattern.

A method for manufacturing a member to be treated includes: a first bonding step of bonding a member to be treated containing metal oxide and a first support to each other with a first adhesive layer; a first surface processing step of forming a first processed surface on the member to be treated; a first surface contact step of bringing a support having adhesiveness, an adsorption support which adsorbs the member to be treated, or a second adhesive layer, into contact with the first processed surface; a second bonding step of bonding the member to be treated and a second support with the second adhesive layer; and a second surface processing step of forming a second processed surface on a rear surface of the first processed surface of the member to be treated. In a case where the support having adhesiveness or the adsorption support and the first processed surface are in contact with each other, the support having adhesiveness or the adsorption support is removed in the first surface contact step. A first adhesive layer removing step of removing the first adhesive layer from the member to be treated is included between the first surface contact step and the second surface processing step.