摘要:
A method for forming a direct hybrid bond and a device resulting from a direct hybrid bond including a first substrate having a first set of metallic bonding pads, preferably connected to a device or circuit, capped by a conductive barrier, and having a first non-metallic region adjacent to the metallic bonding pads on the first substrate, a second substrate having a second set of metallic bonding pads capped by a second conductive barrier, aligned with the first set of metallic bonding pads, preferably connected to a device or circuit, and having a second non-metallic region adjacent to the metallic bonding pads on the second substrate, and a contact-bonded interface between the first and second set of metallic bonding pads capped by conductive barriers formed by contact bonding of the first non-metallic region to the second non-metallic region.
摘要:
A packaging assembly includes a semiconductor device. The semiconductor device includes a conductive pad having a first width, and an under-bump metallization (UBM) layer on the conductive pad, wherein the UBM layer has a second width greater than the first width. The semiconductor device further includes a conductive pillar on the UBM layer, and a cap layer over the conductive pillar, wherein the cap layer exposes sidewalls of the UBM layer. The packaging assembly further includes a substrate. The substrate includes a conductive region, and a mask layer overlying the substrate and exposing a portion of the conductive region. The packaging assembly further includes a joint solder structure between the conductive pillar and the conductive region.
摘要:
A connector structure and a manufacturing method thereof are provided. The connector structure includes a semiconductor substrate, a metal layer, a passivation layer, and a conductive structure. The metal layer is over the semiconductor substrate. The passivation layer is over the metal layer and includes an opening. The conductive structure is in contact with the metal layer in a patterned surface structure of the conductive structure through the opening of the passivation layer.
摘要:
A method for forming semiconductor devices includes attaching a glass structure to a wide band-gap semiconductor wafer having a plurality of semiconductor devices. The method further includes forming at least one pad structure electrically connected to at least one doping region of a semiconductor substrate of the wide band-gap semiconductor wafer, by forming electrically conductive material within at least one opening extending through the glass structure.
摘要:
A device includes a substrate, a metal pad over the substrate, and a metal trace electrically disconnected from the metal pad. The metal pad and the metal trace are level with each other. A passivation layer includes a portion overlapping an edge portion of the metal pad. A metal pillar is overlying the metal pad, and is electrically connected to the metal pad. The metal trace has a portion overlapped by the metal pillar.
摘要:
A wafer and a forming method thereof are provided. The wafer has a die region and a scribe-line region adjacent to the die region, and includes a conductive bonding pad in the die region of the wafer and a wafer acceptance test (WAT) pad in the scribe-line region of the wafer. A top surface of the WAT pad is lower than a top surface of the conductive bonding pad.
摘要:
A manufacturing method of a passive component structure includes the following steps. A protection layer is formed on a substrate, and bond pads of the substrate are respectively exposed through protection layer openings. A conductive layer is formed on the bond pads and the protection layer. A patterned photoresist layer is formed on the conductive layer, and the conductive layer adjacent to the protection layer openings is exposed through photoresist layer openings. Copper bumps are respectively electroplated on the conductive layer. The photoresist layer and the conductive layer not covered by the copper bumps are removed. A passivation layer is formed on the copper bumps and the protection layer, and at least one of the copper bumps is exposed through a passivation layer opening. A diffusion barrier layer and an oxidation barrier layer are chemically plated in sequence on the copper bump.
摘要:
A system and method for preventing cracks in a passivation layer is provided. In an embodiment a contact pad has a first diameter and an opening through the passivation layer has a second diameter, wherein the first diameter is greater than the second diameter by a first distance of about 10 μm. In another embodiment, an underbump metallization is formed through the opening, and the underbump metallization has a third diameter that is greater than the first diameter by a second distance of about 5 μm. In yet another embodiment, a sum of the first distance and the second distance is greater than about 15 μm. In another embodiment the underbump metallization has a first dimension that is less than a dimension of the contact pad and a second dimension that is greater than a dimension of the contact pad.
摘要:
A system and method for providing a post-passivation and underbump metallization is provided. An embodiment comprises a post-passivation layer that is larger than an overlying underbump metallization. The post-passivation layer extending beyond the underbump metallization shields the underlying layers from stresses generated from mismatches of the materials' coefficient of thermal expansion.
摘要:
A semiconductor device structure is provided. The semiconductor device structure includes a substrate. The semiconductor device structure includes a conductive structure over the substrate. The semiconductor device structure includes first metal oxide fibers over the conductive structure. The semiconductor device structure includes a dielectric layer over the substrate and covering the conductive structure and the first metal oxide fibers. The dielectric layer fills gaps between the first metal oxide fibers.