摘要:
An embodiment is a structure. The structure comprises a substrate, a chip, and a reinforcement component. The substrate has a first surface, and the first surface comprises depressions. The chip is over and attached to the first surface of the substrate. The reinforcement component is over a first area of the first surface of the substrate. The first area is not under the chip. The reinforcement component has a portion disposed in at least some of the depressions in the first area.
摘要:
A method includes placing a plurality of bottom units onto a jig, wherein the plurality of bottom units is not sawed apart and forms an integrated component. Each of the plurality of bottom units includes a package substrate and a die bonded to the package substrate. A plurality of upper component stacks is placed onto the plurality of bottom units, wherein solder balls are located between the plurality of upper component and the plurality of bottom units. A reflow is performed to join the plurality of upper component stacks with respective ones of the plurality of bottom units through the solder balls.
摘要:
A process for making a copper post with footing profile employs dual photoresist films of different photosensitivities and thicknesses on an under-bump-metallurgy (UBM) layer. After an exposure lithography process, a first opening with a substantially vertical sidewall is formed in a first photoresist film, and a second opening with a sloped sidewall is formed in a second photoresist film. The second opening has a top diameter and a bottom diameter greater than the top diameter, and the bottom diameter is greater than the diameter of the first opening. A conductive layer is then formed in the first opening and the second opening followed by removing the dual photoresist films.
摘要:
An embodiment is a structure. The structure comprises a substrate, a chip, and a reinforcement component. The substrate has a first surface, and the first surface comprises depressions. The chip is over and attached to the first surface of the substrate. The reinforcement component is over a first area of the first surface of the substrate. The first area is not under the chip. The reinforcement component has a portion disposed in at least some of the depressions in the first area.
摘要:
A method of forming a through silicon via (TSV) structure includes forming an interconnect pad over a substrate. An under layer is formed over the interconnect pad. A vertical conductive post is formed at least partially through the substrate. At least one dummy structure is formed at least partially through the under layer. A top pad is formed over the dummy structure and the vertical conductive post. The top pad covers a wider area than a cross section of the vertical conductive post. The interconnect pad is electrically connected to the top pad. The dummy structure connects the top pad and the under layer thereby fastening the top pad and the interconnect pad.
摘要:
A method for forming a metal pillar bump structure is provided. In one embodiment, a passivation layer is formed over a semiconductor substrate and a conductive layer is formed over the passivation layer. A patterned and etched photoresist layer is provided above the conductive layer, the photoresist layer defining at least one opening therein. A metal layer is deposited in the at least one opening. Portions of the photoresist layer are etched along one or more interfaces between the photoresist layer and the metal layer to form cavities. A solder material is deposited in the at least one opening, the solder material filling the cavities and a portion of the opening above the metal layer. The remaining photoresist layer and the conductive layer not formed under the copper layer are removed. The solder material is then reflown to encapsulate the metal layer.
摘要:
The present disclosure provides a method of making an integrated circuit (IC). The method includes forming an electric device on a front side of a substrate; forming a top metal pad on the front side of the substrate, the top metal pad being coupled to the electric device; forming a passivation layer on the front side of the substrate, the top metal pad being embedded in the passivation layer; forming an opening in the passivation layer, exposing the top metal pad; forming a deep trench in the substrate; filling a conductive material in the deep trench and the opening, resulting in a though-wafer via (TWV) feature in the deep trench and a pad-TWV feature in the opening, where the top metal pad being connected to the TWV feature through the pad-TWV feature; and applying a polishing process to remove excessive conductive material, forming a substantially planar surface.
摘要:
A device includes a work piece including a metal bump; and a dielectric layer having a portion directly over the metal bump. The metal bump and a surface of the portion of the dielectric layer form an interface. A metal finish is formed over and contacting the metal bump. The metal finish extends from over the dielectric layer to below the interface.
摘要:
The present disclosure provides a method of making an integrated circuit (IC). The method includes forming an electric device on a front side of a substrate; forming a top metal pad on the front side of the substrate, the top metal pad being coupled to the electric device; forming a passivation layer on the front side of the substrate, the top metal pad being embedded in the passivation layer; forming an opening in the passivation layer, exposing the top metal pad; forming a deep trench in the substrate; filling a conductive material in the deep trench and the opening, resulting in a though-wafer via (TWV) feature in the deep trench and a pad-TWV feature in the opening, where the top metal pad being connected to the TWV feature through the pad-TWV feature; and applying a polishing process to remove excessive conductive material, forming a substantially planar surface.
摘要:
A flip-chip packaging assembly and integrated circuit device are disclosed. An exemplary flip-chip packaging assembly includes a first substrate; a second substrate; and joint structures disposed between the first substrate and the second substrate. Each joint structure comprises an interconnect post between the first substrate and the second substrate and a joint solder between the interconnect post and the second substrate, wherein the interconnect post exhibits a width and a first height. A pitch defines a distance between each joint structure. The first height is less than half the pitch.