The technology of this application relates to a semiconductor packaged structure, including a circuit board, a chip, a pin, and a plastic package body. The pin includes a connecting part and a pressfit, one end of the connecting part is welded to the circuit board, the other end is flush with a top surface of the plastic package body, the connecting part has a mounting hole, the pressfit is disposed in the mounting hole and is in an interference fit with the connecting part, the pressfit is exposed from the top surface of the plastic package body. Alternatively, the pin includes a pressfit, the plastic package body is provided with a mounting hole that runs through a plastic package body, the pressfit is provided in the mounting hole, one end of the pressfit is welded to the circuit board, the other end is exposed from the top surface of the plastic package body.

A method of manufacturing a semiconductor device is provided. The method includes attaching a first end of a first bond wire to a first conductive lead and a second end of the first bond wire to a first bond pad of a first semiconductor die. A conductive lead extender is affixed to the first conductive lead by way of a conductive adhesive, the lead extender overlapping the first end of the first bond wire. A first end of a second bond wire is attached to the lead extender, the first end of the second bond wire conductively connected to the first end of the first bond wire.

A method of manufacturing a semiconductor device is provided. The method includes attaching a first end of a first bond wire to a first conductive lead and a second end of the first bond wire to a first bond pad of a first semiconductor die. A conductive lead extender is affixed to the first conductive lead by way of a conductive adhesive, the lead extender overlapping the first end of the first bond wire. A first end of a second bond wire is attached to the lead extender, the first end of the second bond wire conductively connected to the first end of the first bond wire.

A semiconductor package includes a die attach pad; a plurality of lead terminals disposed around the die attach pad; a semiconductor die mounted on the die attach pad; a molding compound encapsulating the plurality of lead terminals, the semiconductor die, and the die attach pad; and a step cut sawn into the molding compound along a perimeter of a bottom surface of the semiconductor package. The step cut penetrates through an entire thickness of each of the plurality of lead terminals, whereby each of the plurality of lead terminals has at least an exposed outer end at the step cut.

A semiconductor package includes a die attach pad; a plurality of lead terminals disposed around the die attach pad; a semiconductor die mounted on the die attach pad; a molding compound encapsulating the plurality of lead terminals, the semiconductor die, and the die attach pad; and a step cut sawn into the molding compound along a perimeter of a bottom surface of the semiconductor package. The step cut penetrates through an entire thickness of each of the plurality of lead terminals, whereby each of the plurality of lead terminals has at least an exposed outer end at the step cut.

An electronic structure, an electronic package structure and method of manufacturing an electronic device are provided. The electronic structure includes a carrier and a protection layer. The carrier includes a first pad, a second pad and a first dielectric layer. The first pad is at a side of the carrier and configured to bond with a conductive pad. The second pad is at the side of carrier and configured to electrically connect an exterior circuit. The first dielectric layer includes a first portion around the first pad and a second portion around the second pad, wherein a top surface of the first portion and a top surface of the second portion are substantially coplanar. The protection layer is on the second pad and covers the second pad.

An electronic structure, an electronic package structure and method of manufacturing an electronic device are provided. The electronic structure includes a carrier and a protection layer. The carrier includes a first pad, a second pad and a first dielectric layer. The first pad is at a side of the carrier and configured to bond with a conductive pad. The second pad is at the side of carrier and configured to electrically connect an exterior circuit. The first dielectric layer includes a first portion around the first pad and a second portion around the second pad, wherein a top surface of the first portion and a top surface of the second portion are substantially coplanar. The protection layer is on the second pad and covers the second pad.

In one embodiment, methods for making semiconductor devices are disclosed.

In one embodiment, methods for making semiconductor devices are disclosed.

A semiconductor device package includes a substrate having a surface, a conductive element disposed on the surface of the substrate, and an encapsulant disposed on the surface of the substrate and covering the conductive element. The conductive element has an upper surface facing away from the substrate and exposed from the encapsulant. Further, a roughness of the upper surface of the conductive element is greater than a roughness of a side surface of the conductive element.