摘要:
A device includes a chip attached to a substrate. The chip includes a conductive pillar having a length (L) measured along a long axis of the conductive pillar and a width (W) measured along a short axis of the conductive pillar. The substrate includes a conductive trace and a mask layer overlying the conductive trace, wherein the mask layer has an opening exposing a portion of the conductive trace. An interconnection is formed between the conductive pillar and the exposed portion of the conductive trace. The opening has a first dimension (d1) measured along the long axis of the conductive pillar and a second dimension (d2) measured along the short axis of the conductive pillar. A ratio of L to d1 is greater than a ratio of W to d2.
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:
A structure comprises a top metal connector formed underneath a bond pad. The bond pad is enclosed by a first passivation layer and a second passivation layer. A polymer layer is further formed on the second passivation layer. The dimension of an opening in the first passivation layer is less than the dimension of the top metal connector. The dimension of the top metal connector is less than the dimensions of an opening in the second passivation layer and an opening in the polymer layer.
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:
Substrate stand-offs for use with semiconductor devices are provided. Active pillars and dummy pillars are formed on a first substrate such that the dummy pillars may have a height greater than a height of the active pillars. The dummy pillars act as stand-offs when joining the first substrate to a second substrate, thereby creating greater uniformity. In an embodiment, the dummy pillars may be formed simultaneously as the active pillars by forming a patterned mask having openings with a smaller width for the dummy pillars than for the active pillars. When an electro-plating process of the like is used to form the dummy and active pillars, the smaller width of the dummy pillar openings in the patterned mask causes the dummy pillars to have a greater height than the active pillars.
摘要:
Substrate stand-offs for use with semiconductor devices are provided. Active pillars and dummy pillars are formed on a first substrate such that the dummy pillars may have a height greater than a height of the active pillars. The dummy pillars act as stand-offs when joining the first substrate to a second substrate, thereby creating greater uniformity. In an embodiment, the dummy pillars may be formed simultaneously as the active pillars by forming a patterned mask having openings with a smaller width for the dummy pillars than for the active pillars. When an electro-plating process of the like is used to form the dummy and active pillars, the smaller width of the dummy pillar openings in the patterned mask causes the dummy pillars to have a greater height than the active pillars.
摘要:
A device includes a first work piece bonded to a second work piece. The first work piece includes a solder resist at a surface of the first work piece, wherein the solder resist includes a solder resist opening, and a bond pad in the solder resist opening. The second work piece includes a non-reflowable metal bump at a surface of the second work piece. A solder bump bonds the non-reflowable metal bump to the bond pad, with at least a portion of the solder bump located in the solder resist opening and adjoining the non-reflowable metal bump and the bond pad. A thickness of the solder resist is greater than about 50 percent a height of the solder bump, wherein the height equals a distance between the non-reflowable metal bump and the bond pad.
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:
A structure comprises a top metal connector formed underneath a bond pad. The bond pad is enclosed by a first passivation layer and a second passivation layer. A polymer layer is further formed on the second passivation layer. The dimension of an opening in the first passivation layer is less than the dimension of the top metal connector. The dimension of the top metal connector is less than the dimensions of an opening in the second passivation layer and an opening in the polymer layer.