摘要:
Electrical connections for chip scale packaging are disclosed. In one embodiment, a semiconductor device includes a post-passivation layer disposed over a substrate, the substrate having a first direction of coefficient of thermal expansion mismatch. The semiconductor device includes a first opening through the post-passivation layer, the first opening comprising a plurality of elongated apertures. A longest of the plurality of elongated apertures comprises a first dimension, wherein the first dimension is aligned substantially perpendicular to the first direction of coefficient of thermal expansion mismatch.
摘要:
Mechanisms of forming a bond pad structure are provided. The bond pad has a recess region, which is formed by an opening in the passivation layer underneath the bond pad. An upper passivation layer covers at least the recess region of the bond pad to reduce trapping of patterning and/or etching residues in the recess region. As a result, the likelihood of bond pad corrosion is reduced.
摘要:
Package on package (PoP) devices and methods of packaging semiconductor dies are disclosed. A PoP device is formed by connecting a top package and a bottom package together using a plurality of PoP connectors on the bottom package connected to corresponding connectors of the top package. The PoP device further comprises a plurality of dummy connectors contained in the bottom package and not connected to any corresponding connector in the top package.
摘要:
In a method of improving ball strength of a semiconductor device, a ball pattern of a plurality of connection balls to be formed as electrical connections for the semiconductor device is received. The pattern includes a number of columns and rows crossing each other. The balls are arranged at intersections of the columns and rows. An arrangement of balls in a region of the ball pattern is modified so that the region includes no isolated balls.
摘要:
A wafer level chip scale semiconductor device comprises a semiconductor die, a first under bump metal structure and a second under bump metal structure. The first under bump metal structure having a first enclosure is formed on a corner region or an edge region of the semiconductor die. A second under bump metal structure having a second enclosure is formed on an inner region of the semiconductor die. The first enclosure is greater than the second enclosure.
摘要:
A semiconductor chip includes a corner stress relief (CSR) region. An enhanced structure connects sides of a seal ring structure to surround the CSR region. A device under test (DUT) structure is disposed on the CSR region. A set of probe pad structures is disposed on the CSR region. Two of the set of probe pad structures are electrically connect to the DUT structure.
摘要:
Provided is a test structure for testing an unpackaged semiconductor wafer. The test structure includes a force-application component that is coupled to an interconnect structure of the semiconductor wafer. The force-application component is operable to exert a force to the semiconductor wafer. The test structure also includes first and second test portions that are coupled to the interconnect structure. The first and second test portions are operable to measure an electrical performance associated with a predetermined region of the interconnect structure. The first and second test portions are operable to measure the electrical performance while the force is exerted to the semiconductor wafer.
摘要:
An integrated circuit system comprising a first integrated and at least one of a second integrated circuit, interposer or printed circuit board. The first integrated circuit further comprising a wiring stack, bond pads electrically connected to the wiring stack, and bump balls formed on the bond pads. First portions of the wiring stack and the bond pads form a functional circuit, and second portions of the wiring stack and the bond pads form a test circuit. A portion of the bump balls comprising dummy bump balls. The dummy bump balls electrically connected to the second portions of the wiring stack and the bond pads. The at least one of the second integrated circuit, interposer or printed circuit board forming a portion of the test circuit.
摘要:
A wafer level chip scale package (WLCSP) includes a semiconductor device including an active surface having a contact pad, and side surfaces. A mold covers the side surfaces of the semiconductor device. A RDL structure includes a first PPI line electrically connected to the contact pad and extending on the active surface of the semiconductor device. A UBM layer is formed over and electrically connected to the first PPI line. A seal ring structure extends around the upper periphery of the semiconductor device on the mold. The seal ring structure includes a seal layer extending on the same level as at least one of the first PPI line and the UBM layer. A method of manufacturing a WLCSP includes forming a re-routing laminated structure by simultaneously forming an interconnection line and a seal layer on the molded semiconductor devices.
摘要:
Provided is a test structure for testing an unpackaged semiconductor wafer. The test structure includes a force-application component that is coupled to an interconnect structure of the semiconductor wafer. The force-application component is operable to exert a force to the semiconductor wafer. The test structure also includes first and second test portions that are coupled to the interconnect structure. The first and second test portions are operable to measure an electrical performance associated with a predetermined region of the interconnect structure. The first and second test portions are operable to measure the electrical performance while the force is exerted to the semiconductor wafer.