A wire and a method of manufacturing are provided the wire for use in an organic light emitting diode device includes three parts, a first part and a third part are located at both ends of the wire respectively and each of the first part and the third part is a single wire, a second part is located between the first part and the third part, and the second part is a composite wire, wherein the composite wire comprises at least two wires. By dividing a middle part of one wire into multiple wires, the purpose of changing a wire width of a single wire is achieved, ductility of the wire can be enhanced, thereby avoiding the occurrence of the problem that the device cannot normally work caused by wire fracture during folding, and improving the using efficiency of the device.

A method includes aligning a wire with a package body having a contact pad and moving the wire through the package body to form electrical contact with the contact pad.

A wire and a method of manufacturing are provided the wire for use in an organic light emitting diode device includes three parts, a first part and a third part are located at both ends of the wire respectively and each of the first part and the third part is a single wire, a second part is located between the first part and the third part, and the second part is a composite wire, wherein the composite wire comprises at least two wires. By dividing a middle part of one wire into multiple wires, the purpose of changing a wire width of a single wire is achieved, ductility of the wire can be enhanced, thereby avoiding the occurrence of the problem that the device cannot normally work caused by wire fracture during folding, and improving the using efficiency of the device.

A semiconductor package includes a semiconductor element, a wiring structure, an encapsulation structure, and a solder ball. The semiconductor element includes a plurality of pins. A side of the wiring structure is electrically connected to the plurality of pins of the semiconductor element. The wiring structure includes at least two first wiring layers. A first insulating layer is disposed between adjacent two first wiring layers of the at least two first wiring layers. The first insulating layer includes a plurality of first through-holes. The adjacent two first wiring layers are electrically connected to each other through the plurality of first through-holes. The encapsulation structure at least partially surrounds the semiconductor element. The solder ball is located on a side of the wiring structure away from the semiconductor element. The solder ball is electrically connected to the at least two first wiring layers.

A module includes a circuit package having multiple electronic components on a substrate, a molded compound disposed over the substrate and the electronic components, and an external shield disposed on at least one outer surface of the circuit package. The external shield is segmented into multiple external shield partitions that are grounded, respectively. Adjacent external shield partitions of the multiple external shield partitions are separated by a corresponding gap located between adjacent electronic components of the multiple electronic components. The external shield is configured to protect the circuit package from external electromagnetic radiation and environmental stress. Each corresponding gap separating the adjacent external shield partitions is configured to provide internal shielding of at least one of the electronic components, between which the corresponding gap is located, from internal electromagnetic radiation generated by the other of the adjacent electronic components.

A semiconductor module is produced by providing a circuit carrier having a metallization, an electrically conductive wire and a bonding device. With the aid of the bonding device, a bonding connection is produced between the metallization and a first section of the wire. A separating location and a second section of the wire, the second section being spaced apart from the separating location, are defined on the wire. The wire is reshaped in the second section. Before or after reshaping, the wire is severed at the separating location, such that a terminal conductor of the semiconductor module is formed from a part of the wire. The terminal conductor is bonded to the metallization and having a free end at the separating location.

A module includes a circuit package having multiple electronic components on a substrate, a molded compound disposed over the substrate and the electronic components, and an external shield disposed on at least one outer surface of the circuit package. The external shield is segmented into multiple external shield partitions that are grounded, respectively. Adjacent external shield partitions of the multiple external shield partitions are separated by a corresponding gap located between adjacent electronic components of the multiple electronic components. The external shield is configured to protect the circuit package from external electromagnetic radiation and environmental stress. Each corresponding gap separating the adjacent external shield partitions is configured to provide internal shielding of at least one of the electronic components, between which the corresponding gap is located, from internal electromagnetic radiation generated by the other of the adjacent electronic components.