摘要:
Controlled collapse chip connection (C4) structures and methods of manufacture, and more specifically to structures and methods to improve lead-free C4 interconnect reliability. A structure includes a ball limited metallization (BLM) layer and a controlled collapse chip connection (C4) solder ball formed on the BLM layer. Additionally, the structure includes a final metal pad layer beneath the BLM layer and a cap layer beneath the final metal pad layer. Furthermore, the structure includes an air gap formed beneath the C4 solder ball between the final metal pad layer and one of the BLM layer and the cap layer.
摘要:
A solder interconnect structure is provided with non-wettable sidewalls and methods of manufacturing the same. The method includes forming a nickel or nickel alloy pillar on an underlying surface. The method further includes modifying the sidewall of the nickel or nickel alloy pillar to prevent solder wetting on the sidewall.
摘要:
A topographical feature is formed proximate to a conductive bond pad that is used to couple a solder bump to a semiconductor die. The topographical feature is separated from the conductive bond pad by a gap. In one embodiment, the topographical feature is formed at a location that is slightly beyond the perimeter of the solder bump, wherein an edge of the bump is aligned vertically to coincide with the gap separating the conductive bond pad from the topographical feature. The topographical feature provides thickness enhancement of a non-conductive layer disposed over the semiconductor die and the conductive bond pad and stress buffering.
摘要:
Controlled collapse chip connection (C4) structures and methods of manufacture, and more specifically to structures and methods to improve lead-free C4 interconnect reliability. A structure includes a ball limited metallization (BLM) layer and a controlled collapse chip connection (C4) solder ball formed on the BLM layer. Additionally, the structure includes a final metal pad layer beneath the BLM layer and a cap layer beneath the final metal pad layer. Furthermore, the structure includes an air gap formed beneath the C4 solder ball between the final metal pad layer and one of the BLM layer and the cap layer.
摘要:
A topographical feature is formed proximate to a conductive bond pad that is used to couple a solder bump to a semiconductor die. The topographical feature is separated from the conductive bond pad by a gap. In one embodiment, the topographical feature is formed at a location that is slightly beyond the perimeter of the solder bump, wherein an edge of the bump is aligned vertically to coincide with the gap separating the conductive bond pad from the topographical feature. The topographical feature provides thickness enhancement of a non-conductive layer disposed over the semiconductor die and the conductive bond pad and stress buffering.
摘要:
A solder interconnect structure is provided with non-wettable sidewalls and methods of manufacturing the same. The method includes forming a nickel or nickel alloy pillar on an underlying surface. The method further includes modifying the sidewall of the nickel or nickel alloy pillar to prevent solder wetting on the sidewall.
摘要:
Structures and methods for detecting solder wetting of pedestal sidewalls. The structure includes a semiconductor wafer having an array of integrated circuit chips, each of the integrated circuit chips having an array of chip pedestals having respective chip solder columns on top of the chip pedestals, the pedestals spaced apart a first distance in a first direction and a spaced apart second distance in second direction perpendicular to the first direction; and at least one monitor structure disposed in different regions of the wafer from the integrated circuit chips, the monitor structure comprising at least a first pedestal and a first solder column on a top surface of the first pedestal and a second pedestal and a second solder column on a top surface of the second pedestal, the first and the second pedestals spaced apart a third distance, the third distance less than the first and the second distances.
摘要:
Structures are provided with raised buffer pads for solder bumps. Methods are also provided for forming the raised buffer pads for solder bumps. The method includes forming a raised localized buffer pad structure on a tensile side of a last metal layer of a solder bump connection. The raised localized buffer pad structure increases a height of a portion of a pad structure of the solder bump connection with respect to a compressive side of the last metal layer.
摘要:
Disclosed herein is a solder self-assembly structure, an IC chip including a solder self-assembly structure, and a method of making the same. The structure includes a release layer disposed on a portion of an upper surface of the substrate, laterally spaced from a via in the substrate. A barrier layer metallization (BLM) is disposed in a first part over a portion of the substrate including a via, and in a second part over the release layer, leaving a surface of the substrate exposed between the first portion and the second portion of the BLM. A solder structure is disposed over the first and second portions of the BLM and the exposed surface of the substrate disposed there between. When the solder structure is reflowed and annealed, surface tension in the solder causes self-assembly of a three-dimensional, compliant solder structure.
摘要:
An IC chip package, in one embodiment, may include an IC chip including an upper surface including an overhang extending beyond a sidewall of the IC chip, and underfill material about the sidewall and under the overhang. The overhang prevents underfill material from extending over an upper surface of the IC chip. In another embodiment, a ball grid array (BGA) is first mounted to landing pads on a lower of two joined IC chip packages. Since the BGA is formed on the lower IC chip package first, the BGA acts as a dam for the underfill material thereon. The underfill material extends about the respective IC chip and surrounds a bottom portion of a plurality of solder elements of the BGA and at least a portion of respective landing pads thereof.