摘要:
A semiconductor device includes a recess in a polymer layer between two adjacent metal lines and over passivation layer or anti-electromigration layers on redistribution metal lines to increase the resistance to electromigration.
摘要:
A method of forming post passivation interconnects comprises forming a passivation layer over a substrate, wherein a metal pad is embedded in the passivation layer, depositing a first dielectric layer on the passivation layer, applying a first patterning process to the first dielectric layer to form a first opening, forming a first seed layer over the first opening, filling the first opening with a conductive material, depositing a second dielectric layer on the first dielectric layer, applying a second patterning process to the second dielectric layer to form a second opening, forming an under bump metallization structure over the second opening and mounting an interconnect bump over the under bump metallization structure.
摘要:
A system and method for forming photoresists over semiconductor substrates is provided. An embodiment comprises a photoresist with a concentration gradient. The concentration gradient may be formed by using a series of dry film photoresists, wherein each separate dry film photoresist has a different concentration. The separate dry film photoresists may be formed separately and then placed onto the semiconductor substrate before being patterned. Once patterned, openings through the photoresist may have a tapered sidewall, allowing for a better coverage of the seed layer and a more uniform process to form conductive materials through the photoresist.
摘要:
A method of forming a device includes providing a wafer including a substrate; and forming an under-bump metallurgy (UBM) layer including a barrier layer overlying the substrate and a seed layer overlying the barrier layer. A metal bump is formed directly over a first portion of the UBM layer, wherein a second portion of the UBM layer is not covered by the metal bump. The second portion of the UBM layer includes a seed layer portion and a barrier layer portion. A first etch is performed to remove the seed layer portion, followed by a first rinse step performed on the wafer. A second etch is performed to remove the barrier layer portion, followed by a second rinse step performed on the wafer. At least a first switch time from the first etch to the first rinse step and a second switch time from the second etch to the second rinse step is less than about 1 second.
摘要:
A method of forming a device includes forming an under-bump metallurgy (UBM) layer including a barrier layer and a seed layer over the barrier layer; and forming a mask over the UBM layer. The mask covers a first portion of the UBM layer, and a second portion of the UBM layer is exposed through an opening in the mask. The first portion of the UBM layer includes a barrier layer portion and a seed layer portion. A metal bump is formed in the opening and on the second portion of the UBM layer. The mask is then removed. A wet etch is performed to remove the seed layer portion. A dry etch is performed to remove the barrier layer portion.
摘要:
A method of forming wafer-level chip scale packaging solder bumps on a wafer substrate involves cleaning the surface of the solder bumps using a laser to remove any residual molding compound from the surface of the solder bumps after the solder bumps are reflowed and a liquid molding compound is applied and cured.
摘要:
A package-on-package (PoP) device comprises a bottom package on a substrate and a first set of conductive elements coupling the bottom package and the substrate. The PoP device further comprises a top package over the bottom package and a redistribution layer coupling the top package to the substrate. A method of forming a PoP device comprises coupling a first package to a substrate; and forming a redistribution layer over the first package and a top surface of the substrate. The method further comprises coupling a second package to the redistribution layer, wherein the redistribution layer couples the second package to the substrate.
摘要:
An integrated circuit structure includes a work piece selected from the group consisting of a semiconductor chip and a package substrate. The work piece includes a plurality of under bump metallurgies (UBMs) distributed on a major surface of the work piece; and a plurality of metal bumps, with each of the plurality of metal bumps directly over, and electrically connected to, one of the plurality of UBMs. The plurality of UBMs and the plurality of metal bumps are allocated with an overlay offset, with at least some of the plurality of UBMs being misaligned with the respective overlying ones of the plurality of metal bumps.
摘要:
A structure includes a metal pad over a semiconductor substrate, a passivation layer having a portion over the metal pad, and a first polyimide layer over the passivation layer, wherein the first polyimide layer has a first thickness and a first Young's modulus. A post-passivation interconnect (PPI) includes a first portion over the first polyimide layer, and a second portion extending into the passivation layer and the first polyimide layer. The PPI is electrically coupled to the metal pad. A second polyimide layer is over the PPI. The second polyimide layer has a second thickness and a second Young's modulus. At least one of a thickness ratio and a Young's modulus ratio is greater than 1.0, wherein the thickness ratio is the ratio of the first thickness to the second thickness, and the Young's modulus ratio is the ratio of the second Young's modulus to the first Young's modulus.
摘要:
A semiconductor component formed on a semiconductor substrate is provided. The semiconductor substrate has a first surface and a second surface. The semiconductor substrate includes a plurality of devices on the first surface. A plurality of through silicon vias (TSVs) in the semiconductor substrate extends from the first surface to the second surface. A protection layer overlies the devices on the first surface of the semiconductor substrate. A plurality of active conductive pillars on the protection layer have a first height. Each of the active conductive pillars is electrically connected to at least one of the plurality of devices. A plurality of dummy conductive pillars on the protection layer have a second height. Each of the dummy conductive pillars is electrically isolated from the plurality of devices. The first height and the second height are substantially equal.