A die package having lead structures connecting to a die that provide for electromagnetic interference reductions. Mixed impedance leads connected to the die have a first lead with a first metal core, a dielectric layer surrounding the first metal core, and first outer metal layer connected to ground; and a second lead with a second metal core, and a second dielectric layer surrounding the second metal core, and a second outer metal layer connected to ground. Each lead reducing susceptibility to EMI and crosstalk.

A package device includes a circuit layer, at least one conductive segment, an encapsulant and a redistribution layer. The conductive segment is disposed on the circuit layer and has a first surface and a second surface. The encapsulant encapsulates at least a portion of the conductive segment and has a first upper surface. A first portion of the first surface and at least a portion of the second surface of the conductive segment are disposed above the first upper surface of the encapsulant. The redistribution layer is disposed on the encapsulant, the first portion of the first surface of the conductive segment, and the second surface of the conductive segment.

A package device includes a circuit layer, at least one conductive segment, an encapsulant and a redistribution layer. The conductive segment is disposed on the circuit layer and has a first surface and a second surface. The encapsulant encapsulates at least a portion of the conductive segment and has a first upper surface. A first portion of the first surface and at least a portion of the second surface of the conductive segment are disposed above the first upper surface of the encapsulant. The redistribution layer is disposed on the encapsulant, the first portion of the first surface of the conductive segment, and the second surface of the conductive segment.

A die package having mixed impedance leads where a first lead has a first metal core, and a dielectric layer surrounding the first metal core, and a second lead has a second metal core, and a second dielectric layer surrounding the second metal core, with the dielectric thicknesses differing from each other. A method of making a die package having leads with different impedances formed by connecting the die package to the die substrate connection pads via a first wirebond having a first metal core, depositing a dielectric layer on the wirebond metal core, metalizing the dielectric layer, connecting the die package to the die substrate connection pads via a second wirebond having a second metal core, depositing a dielectric layer on the second wirebond second metal core, and metalizing the dielectric layer on the second metal core, such that the first wirebond has a different impedance than the second wire bond.

A die package having a plurality of connection pads, a plurality of wire leads having metal cores with a defined core diameter, and a dielectric layer surrounding the metal cores having a defined dielectric thickness, at least one first connection pad held in a mold compound covering the die and the plurality of leads connected to at least one metal core, and at least one second connection pad held in the mold compound covering the die and the plurality of leads connected to at least one metal core. Further, the present invention relates to a method for manufacturing a substrate less die package.

A die package having a plurality of connection pads, a die substrate supporting a plurality of connection elements, a first lead having a first metal core with a first core diameter, and a dielectric layer surrounding the first metal core, the dielectric layer having a first dielectric thickness that varies along its length and/or the dielectric layer having an outer metal layer at least partially surrounding the dielectric layer, for selectively modifying the electrical characteristics of the lead.