Patent application number | Description | Published |
20130240883 | Contact Test Structure and Method - A system and method for testing electrical connections is provided. In an embodiment one or more floating pads may be manufactured in electrical connection with an underbump metallization structure. A test may then be performed to measure the electrical characteristics of the underbump metallization structure through the floating pad in order to test for defects. Alternatively, a conductive connection may be formed on the underbump metallization and the test may be performed on the conductive connection and the underbump metallization together. | 09-19-2013 |
20130241683 | Inductor for Post Passivation Interconnect - An inductor device and method of forming the inductor device are provided. In some embodiments the inductor device includes a post passivation interconnect (PPI) layer disposed and an under bump metallization (UBM) layer, each disposed over a substrate. The PPI layer forms a coil and dummy pads. The dummy pads are disposed around a substantial portion of the coil to shield the coil from electromagnetic interference. A first portion of the UBM layer is electrically coupled to the coil and configured to interface with an electrical coupling member. | 09-19-2013 |
20130332092 | Calibration Kits for RF Passive Devices - A method includes measuring a first calibration kit in a wafer to obtain a first performance data. The wafer includes a substrate, and a plurality of dielectric layers over the substrate. The first calibration kit includes a first passive device over the plurality of dielectric layers, wherein substantially no metal feature is disposed in the plurality of dielectric layers and overlapped by the first passive device. The method further includes measuring a second calibration kit in the wafer to obtain a second performance data. The second calibration kit includes a second passive device identical to the first device and over the plurality of dielectric layers, and dummy patterns in the plurality of dielectric layers and overlapped by the second passive device. The first performance data and the second performance data are de-embedded to determine an effect of metal patterns in the plurality of dielectric layers to overlying passive devices. | 12-12-2013 |
20140145346 | Semiconductor Devices and Methods of Manufacture Thereof - Semiconductor devices and methods of manufacture thereof are disclosed. In one embodiment, a method of manufacturing a semiconductor device includes forming a first functional region of an integrated circuit over a workpiece, and forming a second functional region of the integrated circuit over the workpiece. The method includes forming a guard ring around the first functional region of the integrated circuit. The guard ring is formed in a material layer disposed over the first functional region and the second functional region. | 05-29-2014 |
20140151698 | Test Structures for Post-Passivation Interconnect - An integrated circuit structure includes a passivation layer, a polymer layer over the passivation layer, and a PPI monitor structure. The PPI monitor structure includes a portion overlying a portion of the polymer layer. The PPI monitor structure is electrically floating. | 06-05-2014 |
20140183693 | Capacitor in Post-Passivation Structures and Methods of Forming the Same - A device includes a metal pad and a passivation layer having a portion overlapping the metal pad. A capacitor includes a bottom capacitor electrode underlying the passivation layer, wherein the bottom capacitor includes the metal pad. The capacitor further includes a top capacitor electrode over the portion of the passivation layer; and a capacitor insulator including the portion of the passivation layer. | 07-03-2014 |
20140203438 | Methods and Apparatus of Packaging of Semiconductor Devices - Methods and apparatuses for forming an under-bump metallization (UBM) pad above a dielectric layer are disclosed. The dielectric layer may be above a metal layer and comprises a first opening and a second opening surrounding the first opening, which divide the dielectric layer into a first area and a second area. An UBM pad extends into and fills the first opening of the dielectric layer, above the first area between the first opening and the second opening, and may further extends down at least partly into the second opening covering a part or the whole of the second opening of the dielectric layer. The UBM pad may further extend over a part of the second area of the dielectric layer if the UBM pad fills the whole of the second opening of the dielectric layer. A solder ball may be mounted on the UBM pad. | 07-24-2014 |
20140264884 | WLCSP Interconnect Apparatus and Method - Disclosed herein is an interconnect apparatus comprising a substrate having a land disposed thereon and a passivation layer disposed over the substrate and over a portion of the land. An insulation layer is disposed over the substrate and has an opening disposed over at least a portion of the land. A conductive layer is disposed over a portion of the passivation layer and in electrical contact with the land. The conductive layer has a portion extending over at least a portion of the insulation layer. The conductive layer comprises a contact portion disposed over at least a portion of the land. The insulation layer avoids extending between the land and the contact portion. A protective layer may be disposed over at least a portion of the conductive layer and may optionally have a thickness of at least 7 μm. | 09-18-2014 |
20140367160 | ELECTRIC MAGNETIC SHIELDING STRUCTURE IN PACKAGES - A package includes a device die, a molding material molding the device die therein, and a through-via penetrating through the molding material. A redistribution line is on a side of the molding material. The redistribution line is electrically coupled to the through-via. A metal ring is close to edges of the package, wherein the metal ring is coplanar with the redistribution line. | 12-18-2014 |
20140374921 | Ball Height Control in Bonding Process - A package includes a first package component, a second package component over the first package component, and a solder region bonding the first package component to the second package component. At least one ball-height control stud separates the first package component and the second package component from each other, and defines a standoff distance between the first package component and the second package component. | 12-25-2014 |
20150017778 | Capacitor in Post-Passivation Structures and Methods of Forming the Same - A device includes a metal pad and a passivation layer having a portion overlapping the metal pad. A capacitor includes a bottom capacitor electrode underlying the passivation layer, wherein the bottom capacitor includes the metal pad. The capacitor further includes a top capacitor electrode over the portion of the passivation layer; and a capacitor insulator including the portion of the passivation layer. | 01-15-2015 |