A semiconductor device includes a first passivation layer over a substrate. The semiconductor device further includes at least two post passivation interconnect (PPI) lines over the first passivation layer, wherein a top portion of each of the at least two PPI lines has a rounded shape. The semiconductor device further includes a second passivation layer configured to stress the at least two PPI lines. The semiconductor device further includes a polymer material over the second passivation layer and filling a trench between adjacent PPI lines of the at least two PPI lines.

Methods and apparatus for a signal isolator having enhanced creepage characteristics. In embodiments, a signal isolator IC package comprises a leadframe including a die paddle having a first surface to support a die and an exposed second surface. A die is supported by a die paddle wherein a width of the second surface of the die paddle is less than a width of the die.

An interface of integrated circuit (IC) die includes a plurality of the contact elements formed as a contact element pattern corresponding to a parallel bus. The contact elements are arranged in an array of rows and columns and divided into a transmitting group and a receiving group. The contact elements of the transmitting group have a first contact element sequence and the contact elements of the receiving group have a second contact element sequence, the first contact element sequence is identical to the second contact element sequence. The contact elements with the first contact element sequence and the second contact element sequence are matched when the contact element pattern is geometrically rotated by 180° with respect to a row direction and a column direction.

A package structure including a lead frame structure, a die, an adhesive layer, and at least one three-dimensional (3D) printing conductive wire is provided. The lead frame structure includes a carrier and a lead frame. The carrier has a recess. The lead frame is disposed on the carrier. The die is disposed in the recess. The die includes at least one pad. The adhesive layer is disposed between a bottom surface of the die and the carrier and between a sidewall of the die and the carrier. The 3D printing conductive wire is disposed on the lead frame, the adhesive layer, and the pad, and is electrically connected between the lead frame and the pad.

In one embodiment, an apparatus includes a first integrated circuit die with metal bonding pads that are co-planar with an external surface of the die and a second integrated circuit die with metal bonding pads that are co-planar with an external surface of the die. The first and second integrated circuit dies are coupled together such that their external surfaces are in contact and the metal pads of the first integrated circuit die are in direct contact with respective metal pads of the second integrated circuit die. The apparatus also includes an inductor formed at least partially by the metal pads of the first integrated circuit die and the metal pads of the second integrated circuit die.

Semiconductor devices and methods of manufacture are provided wherein a metallization layer is located over a substrate, and a power grid line is located within the metallization layer. A signal pad is located within the metallization layer and the signal pad is surrounded by the power grid line. A signal external connection is electrically connected to the signal pad.

A semiconductor device includes a first passivation layer over a substrate. The semiconductor device further includes a post passivation interconnect (PPI) line over the first passivation layer, wherein a top-most portion of the PPI line has a first portion having a convex shape and a second portion having a concave shape. The semiconductor device further includes a second passivation layer configured to cause stress to the PPI line. The semiconductor device further includes a polymer material over the second passivation layer.

Semiconductor devices and methods of manufacture are provided wherein a metallization layer is located over a substrate, and a power grid line is located within the metallization layer. A signal pad is located within the metallization layer and the signal pad is surrounded by the power grid line. A signal external connection is electrically connected to the signal pad.

In one embodiment, a semiconductor device includes a lower interconnect layer including a plurality of lower interconnects, and a plurality of lower pads provided on the lower interconnects. The device further includes a plurality of upper pads provided on the lower pads and being in contact with the lower pads, and an upper interconnect layer including a plurality of upper interconnects provided on the upper pads. The lower pads include a plurality of first pads and a plurality of second pads. The upper pads include a plurality of third pads provided on the second pads and a plurality of fourth pads provided on the first pads, a lower face of each third pad is larger in area than a upper face of each second pad, and a lower face of each fourth pad is smaller in area than a upper face of each first pad.

Methods and apparatus for a signal isolator having enhanced creepage characteristics. In embodiments, a signal isolator IC package comprises a leadframe including a die paddle having a first surface to support a die and an exposed second surface. A die is supported by a die paddle wherein a width of the second surface of the die paddle is less than a width of the die.