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.

To provide a semiconductor device and a semiconductor module that are capable of improving a heat dissipation property in the semiconductor device including a heat generating element. A semiconductor device includes: a P-type semiconductor substrate, which has a main surface and a main surface opposed to the main surface; an N-type N well, which is provided on the main surface side of the semiconductor substrate; a unit field effect transistor, which is provided in the N well; a P-type heat dissipation guard ring region, which is provided on the main surface side of the semiconductor substrate on the outside of the N well in plan view of the semiconductor substrate; wiring, which is provided on the heat dissipation guard ring region; bump placement portions; and bumps.

A semiconductor package includes a substrate, a redistribution circuit layer, and a protective layer. The redistribution circuit layer is over the substrate and includes a plurality of functional pads electrically connected to the substrate, and a dummy pad pattern electrically disconnected from the plurality of functional pads, wherein the dummy pad pattern includes a plurality of pad portions connected to one another. The protective layer is disposed over the redistribution circuit layer and comprising a plurality of first openings spaced apart from one another and respectively revealing the plurality of pad portions.

Semiconductor devices including electrically-isolated extensions and associated systems and methods are disclosed herein. An electrically-isolated extension may be coupled to a corresponding connection pad that is attached to a surface of a device. The electrically-isolated extensions may extend at least partially through one or more layers at or near the surface and toward a substrate or an inner portion thereof.

A package that includes a substrate, an integrated device, a plurality of first wire bonds, at least one second wire bond, and an encapsulation layer. The integrated device is coupled to the substrate. The plurality of first wire bonds is coupled to the integrated device and the substrate. The plurality of first wire bonds is configured to provide at least one electrical path between the integrated device and the substrate. The at least one second wire bond is coupled to the integrated device. The at least one second wire bond is configured to be free of an electrical connection with a circuit of the integrated device. The encapsulation layer is located over the substrate and the integrated device. The encapsulation layer encapsulates the integrated device, the plurality of first wire bonds and the at least one second wire bond.

An integrated circuit structure includes a metal pad, a passivation layer including a portion over the metal pad, a first polymer layer over the passivation layer, and a first Post-Passivation Interconnect (PPI) extending into to the first polymer layer. The first PPI is electrically connected to the metal pad. A dummy metal pad is located in the first polymer layer. A second polymer layer is overlying the first polymer layer, the dummy metal pad, and the first PPI. An Under-Bump-Metallurgy (UBM) extends into the second polymer layer to electrically couple to the dummy metal pad.

A stacking structure including a first die, a second die stacked on the first die, and a filling material is provided. The first die has a first bonding structure, and the first bonding structure includes first bonding pads and a first heat dissipating element. The second die has a second bonding structure, and the second bonding structure includes second bonding pads and a second heat dissipating element. The first bonding pads are bonded with the second bonding pads. The first heat dissipating element is connected to one first bonding pad of the first bonding pads and the second heat dissipating element is connected to one second bonding pad of the second bonding pads. The filling material is disposed over the first die and laterally around the second die. The first and second dies are bonded through the first and second bonding structures.

An interconnect structure comprises a first dielectric layer, a first metal layer, a second dielectric layer, a metal via, and a second metal layer. The first dielectric layer is over a substrate. The first metal layer is over the first dielectric layer. The first metal layer comprises a first portion and a second portion spaced apart from the first portion. The second dielectric layer is over the first metal layer. The metal via has an upper portion in the second dielectric layer, a middle portion between the first and second portions of the first metal layer, and a lower portion in the first dielectric layer. The second metal layer is over the metal via. From a top view the second metal layer comprises a metal line having longitudinal sides respectively set back from opposite sides of the first portion of the first metal layer.

A semiconductor structure including a semiconductor substrate, an interconnect structure disposed over the semiconductor substrate, and a bonding structure disposed over the interconnect structure is provided. The bonding structure includes a dielectric layer covering the interconnect structure, signal transmission features penetrating through the dielectric layer, and a thermal conductive feature penetrating through the dielectric layer. The thermal conductive feature includes a thermal routing and thermal pads, and the thermal pads are disposed on and share the thermal routing.

A semiconductor package includes; a wiring structure including signal wiring and heat transfer wiring, an active chip on the wiring structure, a signal terminal disposed between the wiring structure and the active chip, a first heat transferring terminal disposed between the wiring structure and the active chip and connected to the heat transfer wiring, a passive chip on the wiring structure, a second heat transferring terminal disposed between the wiring structure and the passive chip and connected to the heat transfer wiring, and a heat spreader on the passive chip.